wheels yacht

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Motor Yacht

Motor yacht Wheels ex. Anastasia, built in 2008 by Dutch shipyard OceAnco, is a superyacht at its most contemporary and luxurious. With a steel hull and aluminium superstructure, she features exterior and interior design by Sam Sorgiovanni. This dramatic vessel measures 75.5 metres and can accommodate up to 12 guests.

Easily recognisable by her deep blue hull and Cayman Islands flag, Wheels is a ship custom-made for passionate water-sports enthusiasts. A huge arsenal of equipment is stored onboard, split between the huge stern garage and foredeck lockers as well as two fold-down side platforms positioned amidships on either side of the vessel.

The yacht's owner chose Sorgiovanni to design the vessel after viewing his work while chartering the 69-metre Aussie Rules. The basic exterior design for Wheels was born from a scaled-down version of a concept design from Sorgiovanni’s portfolio which was then adapted to suit the owner’s personal sports and entertainment focused lifestyle.

With lavishness divided over six decks, the superyacht’s top level is perhaps her most impressive, featuring a sundeck with helipad. The vessel’s main salon can be cleared to make way for a dance floor that boasts strobe lights, lasers and a smoke machine, and the upper aft deck is convertible into a live performance stage connected to the yacht’s sound system. The vessel also features a swimming platform with drop-down area for providing guests with easy access to the ocean.

The interior ambience of the luxury motor yacht is of beach house relaxation, achieved via its simple, comfortable furnishings and natural colour tones. Exhibiting evidence of his Australian base, Sorgiovanni used sand-coloured carpets, eucalyptus wall panels and faux crocodile skin upholstery in his designs. Perhaps some of the more dramatic interior elements include an immense glass sculpture designed to resemble kelp. Created in the Czech Republic by Sans Souci, it carries over three deck levels and up the centre of the spiral stairwell.

Amongst her six cabins are an indulgent split-level owner’s suite; two VIP suites; and three guest cabins. Located on the upper deck, the owner’s suite includes a private balcony and two-storey study. The remainder of the cabins can be found on the main deck, giving them a more airy and spacious feel.

Boasting a full range of exciting entertainment options, Wheels includes a ten-seat cinema and hospital room on the lower deck, and a Jacuzzi, Disco lounge, gym and beauty salon among her extensive list of amenities. You will also find onboard an elegant dining room divided by a 2,700-litre aquarium made to mirror an authentic aquatic reef.

Featuring a dedicated crew, Wheels is an excellent charter yacht for luxury vacations. The yacht cruises comfortably at 15 knots while her crew of 20 ensure the needs of every guest are met.

The luxury motor yacht is equipped with an armada of water toys to provide endless entertainment during any yacht charter. Housed inside the tender garage can be found a several tenders, Wave Runners, aqua scooters, fishing gear, kayaks, canoes, windsurfers, waterskis, tows and a range of scuba diving and snorkelling equipment.

Wheels is built to Lloyds classification and is in compliance with MCA rules.

• Yacht Builder Oceanco View profile
• Exterior Designer Sorgiovanni Designs View profile
• Interior Designer Sorgiovanni Designs View profile

Yacht Specs

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• Superyachts

WHEELS Yacht – Elegant $75M Superyacht

WHEELS yacht is a 75.5-meter yacht capable of welcoming up to 12 guests using six cabins and fitting up to 20 qualified crew members.

She was built and completed in 2008 by Oceanco and was designed by Sam Sorgiovanni. She weighs 1,992 gross tons, cruises at 15 knots, and can go up to a maximum speed of 18 knots.

WHEELS yacht interior

Designing the WHEELS yacht is Sorgiovanni Design Studios, a design studio founded by Sam Sorgiovanni .

His studio design was founded back in 1997, and he has tons of experience in the yacht interior design industry.

He is known for his keen attention to detail and constant demands for excellence in every yacht project.

He has worked on several yacht projects, such as the SECRET yacht, which is an 82.48-meter yacht that is capable of accommodating 12 guests in her seven cabins, along with 23 qualified crew members.

She weighs 2,240 gross tons and can cruise at speeds of 14 knots, and can go up to a top speed of 16 knots.

They were also involved in designing the NOMAD yacht, a 69.49-meter yacht that weighs    1,260 gross tons and can cruise at 15 knots and go to a maximum speed of 16 knots.

Aboard the WHEELS yacht, guests can have full access to tons of amenities such as her outdoor cinema, a jacuzzi, a gym, exercise equipment, a swimming pool, a dance floor, a swimming platform, a movie theater, a tender garage, and a BBQ station.

She also has complete air conditioning, has SatCom, video-on-demand, and wifi access.

She also has tons of toys to play with, such as seabobs, wave runners, flyboards, kayaks, paddleboards, waterskis, kneeboards, scuba diving equipment, inflatable water toys, a sailboat, a water slide, a banana, kite surfers, many others.

Hosting guests are also not a problem as she has six cabins with specifications of 1 Master, 2 VIPs, and 3 Doubles. Adding to this, she can also welcome 21 qualified crew members.

Specifications

She has an overall length of 247.8 feet or 75.5 meters, a beam of 44.3 feet or 13.5 meters, and a draft of 13 feet or 3.95 meters. She has a teak deck, a steel hull, and an aluminum superstructure.

She weighs approximately 1,992 gross tons and is powered by two MTU 16V 4000 M90 diesel-type engines capable of outputting 7396 hp, allowing her to cruise at speeds of 15 knots and go up to a top speed of 18 knots.

She can also carry 160,000 liters worth of fuel, enabling her to cover over 4,400 nautical miles.

WHEELS yacht charter

She is currently available for charter for both the summer and winter seasons. She costs $845,000 per week in summer’s high and low seasons, and cruises in the Mediterranean with hot spots Mykonos and Santorini.

She costs  $840,000 in the low season of the winter and $850,000 in the high season with hot spots on the Virgin Islands.

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WHEELS Yacht for Charter

2008 / 2019

Overview | Exterior | Interior | Accommodation | Photos | Layout | Price

WHEELS PRICE

From:790,000€p/week

Western Mediterranean

Bahamas & Caribbean

WHEELS CHARTER YACHT

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weekly rates from €790,000

WHEELS Yacht for Charter

WHEELS is the 247.8-foot (75.5m) Oceanco mega yacht that formerly went under the name of Anastasia. Built in 2008, her naval architecture was provided by Azure Naval Architects and her interior design was inspired by Sam Sorgiovanni Designs. She is the perfect yacht for family charters or groups of friends. She focuses on the Caribbean in the winter months and the West Mediterranean in the summer, although the East Mediterranean is also a possibility. WHEELS is also available for event charters (for which she can welcome 80 people for quayside occasions), night cruising and overnight anchoring on special request. 

In 2019 she was treated to a refit that built on all her previous updates. Just some of the most recent improvements include new climate-control, upgrades to the audio-systems and an additional Jacuzzi on the upper deck. She also now has an extra external bar and seating area on the sundeck and a new Hobie Cat sailing catamaran for guests to use. This is in addition to her highly impressive complement of water toys and equipment. Kayaks, standup paddleboards, kiteboarding equipment, scuba diving gear, WaveRunners and SeaBobs are available. There are also two tenders and a MasterCraft ski boat which is perfect for towing those on skis or boards. The crew are on hand to offer instruction if needed. The yacht’s full gymnasium and disco lounge are also popular with guests. 

Guests sleep in six inviting staterooms. There is a king-sized master stateroom on the upper deck and two VIP staterooms on the main deck, both with queen-sized beds. Also on the main deck are a further three double rooms. Guests can expect the finest style and luxury throughout, with cutting-edge entertainment systems, elegant décor and first-class service from a crew of 21 experts. Thanks to their excellent work, WHEELS won a special mention for best total package of food and service at the MYBA 2019 Superyacht Chefs’ Competition. The yacht is officially certified by Yacht Carbon Offset. 

Charter Details

• Dance floor

For a full list of all available amenities & entertainment facilities, or price to hire additional equipment please inquire.

Accommodations

Specifications, toys & tenders.

• - 9.5m/31ft - Custom Vikal Open Sport Tender x 14 pax
• - 9.2m/30ft - Chris Craft Launch 30 x 14 pax
• - 7.2m/24ft – Cobra Patronus Guest Rib x 12 pax
• - 7.0m/23ft - Mastercraft X23, wakeboarding boat x 10 pax
• - 21ft Cobra rescue boat
• WATER TOYS:
• - 11m water slide from sundeck
• - 3 x Yamaha Waverunner FX Cruiser + 1 SeaDoo Trixx
• - 2 x Standup Yamaha Jetski Waverunner SuperJet
• - 2 x E-Foil Series 2 Fliteboard™
• - Jet Boots (Zapta Hydro Flyboard)
• - 4 x Seabob F5
• - 4.5m Sport Catamaran Sailing Dinghy
• - 1 x Kayaks
• - 2 x Wakeboard
• - 2 x Wakeskate
• - Awake board
• - 2 x Kiteboard
• - 3 x Windsurf Boards
• - Kneeboard
• - Inflatable Toys: Banana, Sombrero, Poparazzi, 4x4m Ocean-Pool, Jungle Joe Playground, Aquaglide Trampoline, O’Brien Hammerhead, Slacker, Wake Warrior, Ultra Screamer, Floating Lounge
• -> Wakeboard, kitesurf, sailing and diving instructors on board + masseuse/beautician & yoga teacher
• -> WHEELS is a certified RYA Training Centre able to issue jetski licences onboard
• BEACH SETUP GEAR: Gazebos, chairs, loungers, tables
• -Full gym, Jacuzzis, Disco Lounge, Massage room, indoor and outdoor cinema

Summer Rates

2024 Season. Rates p/week + expenses

€ 790,000

Cruising Regions

• East Mediterranean
• Balearic Islands
• West Mediterranean
• Ionian Islands
• French Riviera
• Italian Riviera
• Venice and Eastern Italy
• Amalfi Coast

Winter Rates

2024/2025 Season. Rates p/week + expenses

Itineraries

Weekly rates from €790,000

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WHEELS for charter

WHEELS is proud to be officially certified by Yacht Carbon Offset for her fuel offsetting program. Offering seven decks of outstanding features including a master stateroom with panoramic views, a fully equipped gym, cinema room, a disco area and an armada of water toys, WHEELS is an incredible charter yacht with brand new Canadian SPA hot tub on the sundeck aft, perfect for children or for an intensive relaxing experience. She underwent a refit in 2018 including a substantial upgrade of the entertainment system, additional sitting areas and sunshade and the addition of a brand new Hobie cat sailing catamaran.

Specifications

• Name: WHEELS
• Yacht Type: Motor Yacht
• Builder: Oceanco
• Refits: 2019,2019,2020,2021,2021,2022,2023
• Length Overall: 75.5 metres
• Beam: 13.49 metres
• Max Draught: 3.86 metres
• Gross Tonnage: 1991

Construction

• Year of Build: 2008
• Hull Number: Y703
• Hull Type: Full Displacement
• Number of Decks: 4
• Classification: LR
• MCA Compliant: MCA Compliant:

Performance & Capacities

• Max Speed: 18 kn
• Cruising Speed: 16.5 kn
• Fuel Capacity: 192000 litres
• Water Capacity: 89000 litres
• Range: 4100 nm
• Total power: 7300 hp
• Hull: Steel
• Superstructure: Aluminium

Accommodation

• Passenger Rooms: 6
• Master Rooms: 1
• Double Rooms: 3
• VIP Rooms: 2

Cruising areas

• Summer: Mediterranean
• Winter: Caribbean

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This Yacht is not for Charter*

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WHEELS yacht NOT for charter*

49.99m  /  164' | trinity yachts | 2009 / 2015.

Owner & Guests

Cabin Configuration

• Previous Yacht

Special Features:

• 19th Century Caroline Walnut Dining Table
• Features Roman Leather Buckskin and Custom-Made Wool Carpet
• Master Suite with Private Study and 42” Television
• Large Walnut and Onyx Sky Lounge Bar

The 49.99m/164' motor yacht 'Wheels' was built by Trinity Yachts in the United States at their New Orleans, LA shipyard. Her interior is styled by design house Scott Carpenter and she was delivered to her owner in June 2009. This luxury vessel's exterior design is the work of Trinity Yachts and she was last refitted in 2015.

Guest Accommodation

Wheels has been designed to comfortably accommodate up to 12 guests in 6 suites. She is also capable of carrying up to 9 crew onboard to ensure a relaxed luxury yacht experience.

Onboard Comfort & Entertainment

Her features include a gym, deck jacuzzi, WiFi and air conditioning.

Range & Performance

Built with a aluminium hull and aluminium superstructure, with teak decks, she benefits from a semi-displacement hull to provide exceptional seakeeping and impressive speeds. Powered by twin diesel Caterpillar (3512 B) 12-cylinder 2,250hp engines running at 1925rpm, she comfortably cruises at 16 knots, reaches a maximum speed of 19 knots with a range of up to 4,000 nautical miles from her 60,560 litre fuel tanks at 10 knots. An advanced stabilisation system on board promises exceptional comfort levels at anchor or on any voyage. Her water tanks store around 10,220 Litres of fresh water. She was built to ABS (American Bureau of Shipping) ✠A1, Yachting Service, AMS classification society rules, and is MCA Compliant.

*Charter Wheels Motor Yacht

Motor yacht Wheels is currently not believed to be available for private Charter. To view similar yachts for charter , or contact your Yacht Charter Broker for information about renting a luxury charter yacht.

Wheels Yacht Owner, Captain or marketing company

'Yacht Charter Fleet' is a free information service, if your yacht is available for charter please contact us with details and photos and we will update our records.

Wheels Photos

NOTE to U.S. Customs & Border Protection

Specification

M/Y Wheels

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Amadeus - Crewed Sailing Yacht Charter

Amadeus €35,000.

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SUNBATHING FORWARD

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• Splash Pool

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Anastasia Yurash (Asst. Stewardess)

Stelios Mandos (Engineer)

• From €35,000 / week
• Sailing Monohull + 6 crew
• Summer Port: Cruising Areas Summer: Greece, Turkey Summer Port: Marina Zea, Piraeus, Greece Winter: Greece Winter Port: Marina Zeas, Pireaus, Greece ">Marina Zea, Piraeus, Greece
• Winter Port: Cruising Areas Summer: Greece, Turkey Summer Port: Marina Zea, Piraeus, Greece Winter: Greece Winter Port: Marina Zeas, Pireaus, Greece ">Marina Zeas, Pireaus, Greece
• Length: 110 ft / 33.5 meters 110 feet 33.5 meters
• Guests: 12 in 5 cabins
• Builder: Dynamique Ya
• Built: 1996 / Refit: 2014/2020
• Offers Rendezvous Scuba Diving only

Plus Expenses

• Reviews (1)

Amadeus Description

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. S/Y Amadeus has just undergone this past winter (2018) a major refit such as total repaint top to bottom, new rigging (BSI Denmark), Novourania with new Evinrude 75hp outboard, Splash pool, new Bimini/Sprayhood/Awnings, new exterior fabrics and many other enhancements. In 2016 new “North Sails” were placed onboard. The yacht is maintained in excellent condition with a five-star crew year round. Her generous uncluttered teak deck offers plenty of space for sunbathing. The spacious and unique outdoor saloon has two tables seating upto 12 guests and is a perfect setting for outdoor dining and entertainment. Thanks to a special canopy and roll-up windows, the deck saloon has the added attraction that it can be fully enclosed, making it ideal for all weather conditions. Her forward area includes a splash pool and sun bathing area which can also be shaded with a removable awning. From the cockpit, a stairway leads to the light-filled spacious saloon offering ample seating, ideal for relaxing or enjoying a drink from the bar, and offers a formal dining area. This area also includes a LCD TV, entertainment center, ipod dock station, playstation, and is ideal for indoor activities. She can accommodate 10-12 guests in one full width master stateroom, two double bedded cabins each having one extra single bed and two twin bedded cabins which can be easily converted to double beds (upon request), thus, making her the only 5 double bedded sailboat in the Greek market. She also has a nice selection of toys which include water ski (adult and children), tubes, inflatable canoes, wakeboard, fishing rod and snorkeling gear.

Cruising Area of Amadeus

Accommodations, specification, water sports, scuba diving, entertainment, amadeus crew profile, chief stewardess.

CAPTAIN - Harry Fotopoulos Captain Harry is a graduate of the Merchant Marine Academy and holds a Captain Class A’ Diploma. He also holds a Canadian Commercial Pilot license class B, sailing and speedboat license. He has over 15 years of experience onboard many types of Charter Yachts. He holds Certificates in GMDSS, Fire Fighting & First Aid, Personal Safety, Life Saving, and Ship Security. He has a great knowledge of the Greek islands and will navigate guests to remarkable destinations. During his one season on board he showed great leadership skills and received positive feedback from all guests. He is calm yet very outgoing and speaks very good English. DECKHAND - Konstantinos Santas CHIEF STEWARDESS - Mirella Davint Mirella has 8+ years of experience as a stewardess onboard charter and private yachts. She has a very pleasant personality and she aims to accommodate her guests to the fullest. Comments received from previous guests are memorable. This will be Mirella’s eighth season onboard. Mirella speaks English and she is 38 years old. ENGINEER - Stelios Mandos Stelios holds an Engineer Class B’ Diploma from the Greek Merchant Marine Academy as well as a Sailor’s License. He has over 15 years of experience onboard Ocean-Going Vessels and Charter Yachts. His hobbies include spearfishing and sailing. He speaks good English. Stelios is 45 years old, married with two children. CHEF - Thanasis Kiritsis Thanasis is 39 years old and has worked as a chef for more than 20 years in numerous hotels restaurants, yachts and resorts including owning his own pastry shop / bakery for 5 years. Thanasis looks forward to welcoming his guests on board and introducing them to his culinary world. He speaks good English and Greek. He is a young chef full of energy, skills and passion towards his job. We are confident that he will serve his guests unforgettable flavors. ASSISTANT STEWARDESS - Anastasia Yurash Anastasia is 31 years old and has been in the yachting industry since 2021. Her working experience includes 7 years as a housekeeper and assistant stewardess. Anastasia speaks very good English. One of Anastasia’s strongest attributes is her appetite for work. She is also very sociable, welcoming and looks forward to having guests on board S/Y Amadeus. Her hobbies include Latin dancing, snowboard and yoga.

Amadeus Calendar

Amadeus reservations & port locations, amadeus rates / week, low price: €35,000, high price: €42,500, additional rate details, amadeus guest reviews, amadeus / charter july 20-27, 2019.

Sent: Wednesday, July 31, 2019 9:02 PM Hi George, client just informed me, that he and his friends were very happy. Good atmosphere on board, excellent crew, good chef and professional service. Yacht in good condition, nice cabins. The proposed itinerary was good. Clients intend to book AMADEUS next summer again. Please send my big thank you to the Captain. Best regards,

Amadeus Sample Menu

Breakfast selections.

Freshly Squeezed Orange And/Or Grapefruit Juice

Selection Of Other Juices Such As Peach, Pineapple, Tomato.

Fresh Milk Cold And/Or Hot.

Freshly Brewed Coffee And/Or Decaf Coffee, Cappuccino, Espresso (Nespresso)

Hot Or Cold Chocolate, Selection Of Teas Served With Lemon, Honey And/Or Milk.

Breads: Plain Croissant, Chocolate Croissant, Brioche, Muffins, Traditional Greek Bread,

Rolls, Pastries, Toast White/Wheat/Rye.

Selection Of Jams And Marmalades Such As Apricot, Strawberry, Rasberry, Orange And Honey.

Selection Of Cheese Such As Emmental, Edam, Gruyere, Kefalotiri, Graviera,

Cream Cheese, Cottage Cheese, Cheese Spread.

Ham, Bacon, Salami, Smoked Turkey, Prosciutto.

Choice Of: Scrambled Eggs, Boiled Eggs, Fried Eggs, Poached Eggs, Omelets.

Eggs And Omelets Are Prepared To Order And Accompanied According To The Guest’s Requests.

Pancakes, Served With Jam, Honey, Maple Syrup, Fruits And/Or Whipped Cream.

Home-Made Carrot Cake.

Selection Of Cereals Such As Corn Flakes, Bran,Rice Crispies , Muesli.

Greek Plain Yoghurt And Fruit Yoghurt.

Fruit Salad, Half Grapefruit, Mixed Berries, Stewed Prunes, Dried Fruits And Nuts.

LUNCH SELECTIONS

Greek Salad With Marinated Anchovy And Extra Virgin Olive Oil

Fresh Talliatele With Mushrooms And Parmesan Chips

Seawolf Fiilet With Vegetables Briam, Fried Caper And Fresh Thyme Panacotta With Ginger

Salad With Radish, Dill, Parsley, Arabic Pita Bread And Soumak

Egg-Plant Napoleon With Feta Cheese And Tomato Couli

Chicken Roll, Cous-Cous With Raisins, Pine Nut And Orange Sauce Walnut Cake With Vanilla Ice-Cream

Salad With Grilled Peach And Apricot And Watermelon Vinaigrette Sauce

Risotto With Red Mullet, Pine Nuts And Sun Dried Tomato

Pork Loin Filled With Naxos Graviere

Halvas (Semolina) With Korinthous Raisins Kai Cinnamon

Salad With Fennel Root, Olives And Orange

Tarte With Goat Cheese And Green Apple

Gurnet Fillet With Lemon Sauce Baby Potatoes And Parsley

Yogurt Mousse With Fresh Vanilla

Watermelon Salad,Feta Onion And Lemon Sauce, Balsamic Vinegar And Extra Virgin Olive Oil

Stuffed Squid With Chocolate Sauce

Tuna Fillet With Orange Confite And Red Wine Sauce

Peach Cheesecake

Green Salad With Smoked Salmon And Salmon Eggs

Mussels With Fresh White Cheese (Anthotiro) And Peppers

Sole Fillet Saute With Spring Onion And Fava (Yellow Split Peas) Fron Santorini Island

Galaktompoureko (Pastry Fillo Filled With Cream) And Orange Couli

Salad With Rocket, Parmezan Flakes, Sun Dried Tomato And Caramel Balsamic Sauce

Grilled Octapus With Chick Peas And Lemon

Anglerfish Stew With Green Talliatele

Tiramisu With Aigina Pistachios

DINNER SELECTIONS

Salad With Cretan Hard Bread , Tomato And Fresh White Cheese (Anthotiro) Grilled Vegetables Napoleon With Mastello (Chios Cheese) Bream Fillet With Crust From Cuttlefish Ink, Artichoke Mousse And Marinated Fennel Root Chocolate Souffle With Ice-Cream

Green Salad With Cottage Cheese, Walnuts And Extra Virgin Olive Oil With Herbs Cabbage Leafs Filled With Shrimps, Cracked Wheat And Egg-Lemon Sauce And Ginger T-Bone Steak With Mushrooms Sauce,Dofinouaze Potato Trifle With Coffee

Caesars Salad With Poached Egg, Parmesan Tuille And Mustard Crackers Fousili With Pesto Sauce And King Prawns Cod Fish Cooked With Safron, Green Olives And Potato Kantaifi With Pistachio And Ice Cream

Mozzarella Buffal0 With Black Eyed Beans And Fennel Rizotto Venere With Chicken Breast And Crawfish Rib-Eye With Fresh Potato Chips And Vegetable Sauce Almond Pie With Chocolate

Baby Spinach Salad, Pears With Pepper And Walnut Vinegar From Blackberry Beef Carpaccio With Caper, Parmesan And Rocket Gilthead Fillet, Vegetable Chips And Hot Balsamic Sauce Greek Loukoumades, Thyme Honey And Walnuts

Cracked Wheat Salad, Parsley,Cucumber,Tomato And Pomegrenade Sauce Goat And Feta Cheese Croquete, Orange And Cumin Sauce Pork Souvlaki, Greek Pita Bread, Tzatziki Sauce And French Fries Caltsounia (Pastry) With Manouri Cheese, Mint, Honey-Orange Sauce

Grilled Vegetables Salad And Chaloumi (Cyprus Cheese) Eggplant “Papoutsakia”, Mince Meat With Fresh Tomato Sauce Spagetti Flavored With Cutlefish Ink, Shrimps Hazelnut Cream Profiterolle

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AMADEUS is a fast cruising sailing yacht built by the famous Dynamique Yachts shipyard and totally refit in 2004, she was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design that enables her to comfortably reach top speeds of 12 knots and ensures excellent sailing performance.

This sailing yacht's generous uncluttered teak deck with a foredeck pool, offers plenty of space for sunbathing. The spacious and unique outdoor saloon has two tables, a bar and barbeque, a perfect setting for outdoor dining and entertainment. Thanks to a special canopy and roll-up windows, the deck saloon has the added attraction that it can be fully enclosed, making it ideal for all weather conditions. From the cockpit, a stairway leads to the light-filled spacious saloon offering ample seating, ideal for relaxing or enjoying a drink from the bar, and a formal dining area with seating for up to 12 guests.

Accomodation is offered for up to 12 guests in 5 spacious cabins: the bow master cabin on AMADEUS features a double bed, vanity unit and generous storage facilities, as well as audio/visual entertainment. The en-suite bath includes a shower and separate large bath. Two double cabins with additional single bunks situated forward. Two twin cabins situated aft. All cabins with en suite facilities and audio/visual entertainment. Crew of 5 in separate quarters.

Special Features :

- Fast cruising sailing yacht - Spacious teck deck, sunbathing areas - Outdoor saloon with a bar and barbecue

Tender: Novourania tender 4.20m with YAMAHA X 70hp plus MERCURY x 10hp

Activities : Wakeboard , Kayak , Snorkeling equipment , Waterskis , Fishing equipment , Monoski , Tender , Tubes .

Summer : East Mediterranean Greece - The Cyclades Islands | Turkey | Greece – The Ionian Islands

Winter : East Mediterranean Greece - The Cyclades Islands | Turkey | Greece – The Ionian Islands

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• Receive the brochure of this yacht
• FR +33 AC +247 AD +376 AE +971 AF +93 AG +1 AI +1 AL +355 AM +374 AO +244 AR +54 AS +1 AT +43 AU +61 AW +297 AX +358 AZ +994 BA +387 BB +1 BD +880 BE +32 BF +226 BG +359 BH +973 BI +257 BJ +229 BL +590 BM +1 BN +673 BO +591 BQ +599 BR +55 BS +1 BT +975 BW +267 BY +375 BZ +501 CA +1 CC +61 CD +243 CF +236 CG +242 CH +41 CI +225 CK +682 CL +56 CM +237 CN +86 CO +57 CR +506 CU +53 CV +238 CW +599 CX +61 CY +357 CZ +420 DE +49 DJ +253 DK +45 DM +1 DO +1 DZ +213 EC +593 EE +372 EG +20 EH +212 ER +291 ES +34 ET +251 FI +358 FJ +679 FK +500 FM +691 FO +298 FR +33 GA +241 GB +44 GD +1 GE +995 GF +594 GG +44 GH +233 GI +350 GL +299 GM +220 GN +224 GP +590 GR +30 GT +502 GU +1 GW +245 GY +592 HK +852 HN +504 HR +385 HT +509 HU +36 ID +62 IE +353 IL +972 IM +44 IN +91 IQ +964 IR +98 IS +354 IT +39 JE +44 JM +1 JO +962 JP +81 KE +254 KG +996 KH +855 KI +686 KM +269 KN +1 KP +850 KR +82 KW +965 KY +1 KZ +7 LA +856 LB +961 LC +1 LI +423 LK +94 LR +231 LS +266 LT +370 LU +352 LV +371 LY +218 MA +212 MC +377 MD +373 ME +382 MF +590 MG +261 MH +692 MK +389 ML +223 MM +95 MN +976 MO +853 MP +1 MQ +596 MR +222 MS +1 MT +356 MU +230 MV +960 MW +265 MX +52 MY +60 MZ +258 NA +264 NC +687 NE +227 NF +672 NG +234 NI +505 NL +31 NO +47 NP +977 NR +674 NU +683 NZ +64 OM +968 PA +507 PE +51 PF +689 PG +675 PH +63 PK +92 PL +48 PM +508 PR +1 PS +970 PT +351 PW +680 PY +595 QA +974 RE +262 RO +40 RS +381 RU +7 RW +250 SA +966 SB +677 SC +248 SD +249 SE +46 SG +65 SH +290 SI +386 SJ +47 SK +421 SL +232 SM +378 SN +221 SO +252 SR +597 SS +211 ST +239 SV +503 SX +1 SY +963 SZ +268 TC +1 TD +235 TG +228 TH +66 TJ +992 TL +670 TM +993 TN +216 TO +676 TR +90 TT +1 TV +688 TW +886 TZ +255 UA +380 UG +256 US +1 UY +598 UZ +998 VA +39 VC +1 VE +58 VG +1 VI +1 VN +84 VU +678 WF +681 WS +685 XK +383 YE +967 YT +262 ZA +27 ZM +260 ZW +263

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About Amadeus

Charter rates.

specifications

• Length 33.52M (110′)
• Beam 7.53M (25′-4″)

Builder Dynamique Yachts

• Year of build 1996

Tenders & Toys

• Fishing equipment
• inflatable canoes
• On deck pool
• Snorkeling gear

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Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2014, S/Y Amadeus was designed to please the most demanding of yachtsmen.

Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. Accommodation is offered for up to 12 guests in 5 spacious cabins (one master cabin, two identical double cabins with additional single bunks, two identical twin cabins) all with en suite facilities and audio/visual entertainment.

General Description

Carian Coast, Ionian Islands

Dynamique Yachts

1996 / 2018

Rates (MYBA Terms: + ALL)

45,500 € per week

35,000 € per week

2018 Nuvorania tender 4.60m Outboard EVINRUDE 75hp Splash pool Water Skis (adult and kids) Mono Ski Wakeboard

2 Tubes Inflatable Kayak Fishing Gear Snorkeling Equipment 4 Yoga mats

Destinations

Carian Coast

Superb historical sites set in magnificent scenery

Ionian Islands

Unforgettable Sailing Holidays

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AMADEUS Dynamique Yachts SA

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If you have any questions about the AMADEUS information page below please contact us .

A General Description of Sailing Yacht AMADEUS

AMADEUS was previously registered as project/yacht name Amadeus 1er. This 33 metre (109 ft) luxury yacht was built by Dynamique Yachts in 1991. Sailing Yacht AMADEUS is a well proportioned superyacht. The yacht is a modern sloop with a cutter rig. The naval architecture office whom authored the design work on this ship was Philippe Briand. Luxury yacht AMADEUS is a quality yacht that is able to accommodate as many as 12 guests on board and has a total of 5 crew members.

Sailing yacht AMADEUS was built by the famous Dynamique Yachts shipyard .The yacht features superb sailing characteristics which are complimented by her spacious interior and abundant deck space. Sailing sloop AMADEUS can accommodate 10 passengers in five cabins. With one large master stateroom and four additional cabins which are all air conditioned and have en suite bathrooms. She also has two separate salons and a full dining room. The aft deck is fully covered with seating. The fore deck has an unique pool on deck and swimming in the sea is made accessible by a large swim aft platform.

The Construction & Naval Architecture relating to Luxury Yacht AMADEUS

Philippe Briand was the naval architect firm involved in the formal nautical design work for AMADEUS. Also the company Philippe Briand skillfully collaborated on this undertaking. In 1991 she was actually launched to triumph in Marans and following sea trials and final completion was afterwards passed on to the yacht owner. Dynamique Yachts completed their new build sailing yacht in France. A reasonable proportion is brought about with a maximum beam (width) of 7.5 metres / 24.6 feet. With a 3.6m (11.8ft) draught (maximum depth) she is reasonably deep. The material composite was used in the building of the hull of the sailing yacht. Her superstructure above deck is built with the use of composite. Over the deck of AMADEUS she is 32.7 (107.3 ft) in length. In 2004 extra refitting and modernisation was also finished.

Engines & Speed For S/Y AMADEUS:

She is driven by twin screw propellers. The main engine of the ship gives 375 horse power (or 276 kilowatts). She is equiped with 2 engines. The combined thrust for the boat is therefore 750 HP / 552 KW.

On board Superyacht AMADEUS She has The Following Guest Accommodation Format:

Bestowing bedding for a maximum of 12 yacht guests sleeping aboard, the AMADEUS accommodates them in style. Normally the vessel requires approximately 5 professional crewmembers to run.

A List of the Specifications of the AMADEUS:

Further information on the yacht.

Condaria is the company that installed the A/C on the yacht. AMADEUS features a teak deck.

AMADEUS Disclaimer:

The luxury yacht AMADEUS displayed on this page is merely informational and she is not necessarily available for yacht charter or for sale, nor is she represented or marketed in anyway by CharterWorld. This web page and the superyacht information contained herein is not contractual. All yacht specifications and informations are displayed in good faith but CharterWorld does not warrant or assume any legal liability or responsibility for the current accuracy, completeness, validity, or usefulness of any superyacht information and/or images displayed. All boat information is subject to change without prior notice and may not be current.

Quick Enquiry

"Indeed we believe that the first function of a sailing yacht is the aesthetics and we spent a lot of time in refining the lines during the project." - "I understood very young that to win a race you have to have the best boat, and so I started to be interested about the technology and the design of the boat." - Philippe Briand

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AMADEUS 110' Fully Crewed Sailing Yacht

• Summer Locations: Greece , Turkey Winter Locations: Greece
• Max Guests : 12    Cabins : 5    Crew : 6
• Starting at : EUR €39,500 (approx. $45,820 USD )

Charter rates do not include expenses or taxes

Her master cabin features a walk around king bed, desk/vanity, and en-suite bathroom. Additionally, there are two guest cabins each with a queen bed convertible to two twins, and two guest cabins each with a queen bed and twin bed. Each guest cabin has an en-suite.

Her main salon has a spacious, contoured conversational area, along with a large, flatscreen T.V. The aft deck features al fresco dining with Bimini top. Up on deck there are sun pads and a splash pool for you and your guests to enjoy.

Watersports offered include a 15 foot tender with 75hp engine, water skis for adults and children, tube, wakeboard, kayak, fishing gear, snorkeling gear, and rendezvous diving.

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AMADEUS 110' sailing yacht

Can sleep up to 12 guests in 5 staterooms Weekly rate starts at: EUR €39,500 (approx. $45,820 USD)

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Sailing Yacht | Amadeus

Fuel Capacity

Water capacity, sailing yacht amadeus | luxury crewed monohull.

Sailing yacht AMADEUS is a stunning 110 ft yacht available for charter in Greece. With a clean, spacious teak deck and a unique outdoor saloon that can seat up to 12 guests across two tables, it’s the perfect place for outdoor dining and entertainment. The deck saloon can also be enclosed with a special canopy and roll-up windows, making it suitable for use in all weather conditions. At the front of the boat, there’s a splash pool and sunbathing area with a removable awning for shade.

Inside the boat, a staircase from the cockpit leads to a well-lit and roomy saloon area with plenty of seating, including a formal dining area, bar, LCD TV, entertainment center, iPod dock station, and Playstation. Sailing Yacht AMADEUS can accommodate 10-12 guests in five large cabins, including a full-width master stateroom and two double cabins, each with an extra single bed. The two twin cabins can also be converted to doubles upon request, making her the only sailboat on the Greek market with five double beds.

To add to the fun, sailing yacht AMADEUS also comes with a range of water toys, including adult and children’s water skis, tubes, inflatable canoes, wakeboard, fishing rod, and snorkeling gear. She was built by Dynamique Yachts in 1996 and underwent a refit in 2014/2018.

ACCOMMODATION

• 1 Master cabin
• 2 VIP cabins
• 2 Twin cabins

Accomodation is offered for 10 -12 guests in 5 spacious cabins: Master cabin forward features a double bed, vanity unit and generous storage facilities, as well as audio/visual entertainment. The en-suite includess a large bath tub, shower and separate WC. Two identical double cabins with additional single bunks situated forward. Two identical double cabins situated aft which can be convertible to twins. (Total 5 double beds) All cabins with en suite facilities and audio/visual entertainment.

A professional crew of 5-6 members are accommodated in separate quarters.

Note that these specifications may vary slightly depending on the specific yacht’s configuration and modifications made by the owner.

New rigging BSI Denmark (2018) New North Sails (2016) Nuvorania tender 4.60m with a New Outboard EVINRUDE E tec 75hp Engines: 2 x 320HP Perkins Rolls Royce Generators: 1 Northern Lights x 25KW, 1 ONAN x 60KW Cruising speed: 10 Fuel consumption: 120 Litres/Hr Generators: 250 Liters/Day

Navigation and safety

• Outside GPS plotter
• Bow thruster
• Electric winches
• Classic mainsail

Saloon and cabins

• Air conditioning
• Coffee machine
• Kitchen utensils
• Pillows and blankets

Entertainment

• LCD 27″ TV, VCR, & CD entertainment systems in Saloon
• X-Box ONE X & Playstation 3 in Saloon
• Master cabin: TV, CD, & DVD entertainment systems
• Double cabins: TV, CD, & DVD entertainment systems
• Twin cabins (convertible to Doubles):TV, CD, & DVD entertainment systems

Water Sports

• Tender & Toys:
• 2018 Nuvorania tender 4.60m with a New Outboard EVINRUDE E tec75hp
• Water Skis (adult and kids)
• Inflatable Kayak
• Fishing Gear
• Snorkelling Equipment
• 4 Yoga mats
• Bathing platform
• Stand Up Paddle

Weekly price: €35,000 – €42,500

Low Season | High Season

Charter Type: Crewed

Berths: 10-12 guests, sailing area: argo-saronic, departure ports: alimos, athens, send us your request, personal information, booking information.

Odyssey Sailing is registered and bonded with the Greek National Tourist Organisation (GNTO – EOT) and is a member of the Hellenic Yacht Brokers Association (HYBA).

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Length 33,5m / 109′ ft.

Built/Last Refit 2009/2021

Weekly rate Low € 35.000

Weekly rate High € 45.500

Accommodation

Luxury yacht AMADEUS can accommodate up to 12 guests in 5 cabins. One Master cabin with small desk and en suite facilities (wc separate from bath and shower). Two double cabins with additional single bed and two twin cabins. All cabins with en suite facilities.

Charter Amenities and Extras

S/Y AMADEUS has the following extras onboard: Tenders & Toys include Novourania tender 4.20m with YAMAHA X 70hp plus, MERCURY x 10hp, Water Skis, Mono Ski, Wakeboard, 2 Tubes, Fishing Gear, Snorkelling Equipment, Communications include VHF-GMDSS, Cellular phone, Radar, E-Mail/internet access, Audio Visual Equipment and Deck Facilities include Master cabin: TV, CD, & DVD entertainment system, Double cabins: TV, CD, & DVD entertainment system, Twin cabins: TV, CD, & DVD entertainment system, Saloon: LCD 27’ TV, VCR, & CD entertainment system.

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Charter the AMADEUS

AMADEUS is a 110-foot sailing yacht that can accommodate ten to twelve passengers in five staterooms as follows: a spacious Owner’s stateroom with a double bed, a vanity and an entertainment unit including TV, DVD and music system; two cabins with a double bed and an additional single bed; two cabins with two twin beds each. All staterooms have en suite bathrooms, a TV, DVD and CD player. There are two separate salons onboard as well as a full dining room. The aft deck is fully covered and has seating for all guests to dine in the open air. Forward of the cockpit is a lovely cushioned area for sunning and an unusual pool is found in the fore of the yacht. Swimming in the sea is made accessible by the large swim aft platform.

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Yacht Specifications:

Length: (33.26m/109.11ft), yacht type: sailing yachts, beam: 24.7 ft, built: 1996 | 2018, draft: 12.10 ft, builder: dynamic, guests: 10-12, engines: 2 x 320hp perkins rolls royce, generators: 1 northern lights x 25kw, 1 onan x 60kw, fuel: 120 ltrs/hr, configuration: 1 master cabin, 2 doubles cabins with a single bed each, 2 twin cabins, cruising speed: 10 knots/hr.

(*All specifications are given in good faith and offered for informational purposes only. Yacht inventory, specifications and charter rates are subject to change without prior notice.*)

Recreational Equipment

• NEW Novorania tender 4.60m with NEW EVINRUDE 75hp plus MERCURY x 10hp • Wakeboard • Water Skis (adult and kids), Mono Ski • 2 Tubes • Kayak • 4 Yoga mats • Fishing Gear Snorkelling Equipment

Weekly Rates

High season: €42,500/week, med season: €37,500/week, low season: €35,000/week.

(*Rates are given based on a week charter / Rates are subject to change without notice*)

Customer Reviews

I could no joke die tomorrow and be a happy man. ~ Matthew F.

Although we have traveled just about all over the world, this was probably our best vacation ever. We will be back! ~ Louise Z.

Our trip was FABULOUS! More than exceeded expectations. ~ Anne G.

We have just completed a vacation that I have thought about for a lot of years. Thank you all for making a dream come true!!!! ~ Mae & Bill M.

Everyone is still talking about the trip and I cannot imagine it going any better. ~ Jack D.

Interested in this yacht?

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Destination Greece Turkey Montenegro and Croatia West Mediterranean

Number of Guests 1 2 - 4 4 - 6 6 - 8 8 - 10 10 - 12 12+

Number of Cabins 3 Cabin 4 Cabins 5 Cabins 6 Cabins 7 Cabins 8+ Cabins

Yacht Length 45ft - 70ft 70ft - 110ft 110ft - 130ft 130ft - 160ft 160ft +

Weekly Rate < €14,000 €14,000 - 35,000€ 35,000€ - 49,000€ 49,000€ - 70,000€ 70,000€ - 105,000€ 105,000€ - 175,000€ 175,000€ +

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AMADEUS YACHT CHARTER

21.95m  /  72'   sunseeker   2008.

• Previous Yacht

Cabin Configuration

Special Features:

• Cruising speed of 22 knots
• Sleeps 6 guests
• Williams Jet RIB

Luxury yacht Amadeus is the perfect charter platform for yachting vacations spent entertaining in style

The 21.95m/72' motor yacht 'Amadeus' by the British shipyard Sunseeker offers flexible accommodation for up to 6 guests in 3 cabins.

If you're looking for a family-friendly yacht with plenty of onboard amenities, Amadeus is the perfect choice, promising superb charter vacations whatever the destination.

Guest Accommodation

Built in 2008, Amadeus offers guest accommodation for up to 6 guests in 3 suites comprising a master suite, one VIP cabin and one twin cabin. There are 4 beds in total, including 1 queen, 1 double and 2 singles. She is also capable of carrying up to 2 crew onboard to ensure a relaxed luxury yacht charter experience.

Onboard Comfort & Entertainment

Whatever your activities on your charter, you'll find some impressive features are seamlessly integrated to help you, notably Wi-Fi connectivity, allowing you to stay connected at all times, should you wish. Guests will experience complete comfort while chartering thanks to air conditioning.

Performance & Range

Powered by twin MAN engines, she comfortably cruises at 22 knots, reaches a maximum speed of 35 knots with a range of up to 250 nautical miles.

Onboard Amadeus has a range of toys and accessories to keep you and your guests entertained on the water throughout your stay. Principle among these are Super wid waterskis that are hugely entertaining whether you are a beginner or a seasoned pro. Another excellent feature are O' Brien Ace wakeboards so guests can show off at speed. When it's time to travel from land to see, it couldn't be easier with a Williams Jet RIB.

Motor yacht Amadeus boasts an impressive array of outstanding amenities for truly out-of-this-world charter vacations that you’ll never forget.

TESTIMONIALS

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Amadeus Photos

Amenities & Entertainment

For your relaxation and entertainment Amadeus has the following facilities, for more details please speak to your yacht charter broker.

Amadeus is reported to be available to Charter with the following recreation facilities:

• 1 x Williams 325 Jet RIB 100 HP engine

For a full list of all available amenities & entertainment facilities, or price to hire additional equipment please contact your broker.

• + shortlist

For a full list of all available amenities & entertainment facilities, or price to hire additional equipment please contact your broker.

'Amadeus' Charter Rates & Destinations

Please contact your charter broker for a quote or check availability .

Charter Amadeus

To charter this luxury yacht contact your charter broker , or we can help you.

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40 facts about elektrostal.

Written by Lanette Mayes

Modified & Updated: 02 Mar 2024

Reviewed by Jessica Corbett

Elektrostal is a vibrant city located in the Moscow Oblast region of Russia. With a rich history, stunning architecture, and a thriving community, Elektrostal is a city that has much to offer. Whether you are a history buff, nature enthusiast, or simply curious about different cultures, Elektrostal is sure to captivate you.

This article will provide you with 40 fascinating facts about Elektrostal, giving you a better understanding of why this city is worth exploring. From its origins as an industrial hub to its modern-day charm, we will delve into the various aspects that make Elektrostal a unique and must-visit destination.

So, join us as we uncover the hidden treasures of Elektrostal and discover what makes this city a true gem in the heart of Russia.

Key Takeaways:

• Elektrostal, known as the “Motor City of Russia,” is a vibrant and growing city with a rich industrial history, offering diverse cultural experiences and a strong commitment to environmental sustainability.
• With its convenient location near Moscow, Elektrostal provides a picturesque landscape, vibrant nightlife, and a range of recreational activities, making it an ideal destination for residents and visitors alike.

Known as the “Motor City of Russia.”

Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname “Motor City” due to its significant involvement in the automotive industry.

Home to the Elektrostal Metallurgical Plant.

Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

Boasts a rich industrial heritage.

Elektrostal has a long history of industrial development, contributing to the growth and progress of the region.

Founded in 1916.

The city of Elektrostal was founded in 1916 as a result of the construction of the Elektrostal Metallurgical Plant.

Located approximately 50 kilometers east of Moscow.

Elektrostal is situated in close proximity to the Russian capital, making it easily accessible for both residents and visitors.

Known for its vibrant cultural scene.

Elektrostal is home to several cultural institutions, including museums, theaters, and art galleries that showcase the city’s rich artistic heritage.

A popular destination for nature lovers.

Surrounded by picturesque landscapes and forests, Elektrostal offers ample opportunities for outdoor activities such as hiking, camping, and birdwatching.

Hosts the annual Elektrostal City Day celebrations.

Every year, Elektrostal organizes festive events and activities to celebrate its founding, bringing together residents and visitors in a spirit of unity and joy.

Has a population of approximately 160,000 people.

Elektrostal is home to a diverse and vibrant community of around 160,000 residents, contributing to its dynamic atmosphere.

Boasts excellent education facilities.

The city is known for its well-established educational institutions, providing quality education to students of all ages.

A center for scientific research and innovation.

Elektrostal serves as an important hub for scientific research, particularly in the fields of metallurgy, materials science, and engineering.

Surrounded by picturesque lakes.

The city is blessed with numerous beautiful lakes, offering scenic views and recreational opportunities for locals and visitors alike.

Well-connected transportation system.

Elektrostal benefits from an efficient transportation network, including highways, railways, and public transportation options, ensuring convenient travel within and beyond the city.

Famous for its traditional Russian cuisine.

Food enthusiasts can indulge in authentic Russian dishes at numerous restaurants and cafes scattered throughout Elektrostal.

Home to notable architectural landmarks.

Elektrostal boasts impressive architecture, including the Church of the Transfiguration of the Lord and the Elektrostal Palace of Culture.

Offers a wide range of recreational facilities.

Residents and visitors can enjoy various recreational activities, such as sports complexes, swimming pools, and fitness centers, enhancing the overall quality of life.

Provides a high standard of healthcare.

Elektrostal is equipped with modern medical facilities, ensuring residents have access to quality healthcare services.

Home to the Elektrostal History Museum.

The Elektrostal History Museum showcases the city’s fascinating past through exhibitions and displays.

A hub for sports enthusiasts.

Elektrostal is passionate about sports, with numerous stadiums, arenas, and sports clubs offering opportunities for athletes and spectators.

Celebrates diverse cultural festivals.

Throughout the year, Elektrostal hosts a variety of cultural festivals, celebrating different ethnicities, traditions, and art forms.

Electric power played a significant role in its early development.

Elektrostal owes its name and initial growth to the establishment of electric power stations and the utilization of electricity in the industrial sector.

Boasts a thriving economy.

The city’s strong industrial base, coupled with its strategic location near Moscow, has contributed to Elektrostal’s prosperous economic status.

Houses the Elektrostal Drama Theater.

The Elektrostal Drama Theater is a cultural centerpiece, attracting theater enthusiasts from far and wide.

Popular destination for winter sports.

Elektrostal’s proximity to ski resorts and winter sport facilities makes it a favorite destination for skiing, snowboarding, and other winter activities.

Promotes environmental sustainability.

Elektrostal prioritizes environmental protection and sustainability, implementing initiatives to reduce pollution and preserve natural resources.

Home to renowned educational institutions.

Elektrostal is known for its prestigious schools and universities, offering a wide range of academic programs to students.

Committed to cultural preservation.

The city values its cultural heritage and takes active steps to preserve and promote traditional customs, crafts, and arts.

Hosts an annual International Film Festival.

The Elektrostal International Film Festival attracts filmmakers and cinema enthusiasts from around the world, showcasing a diverse range of films.

Encourages entrepreneurship and innovation.

Elektrostal supports aspiring entrepreneurs and fosters a culture of innovation, providing opportunities for startups and business development.

Offers a range of housing options.

Elektrostal provides diverse housing options, including apartments, houses, and residential complexes, catering to different lifestyles and budgets.

Home to notable sports teams.

Elektrostal is proud of its sports legacy, with several successful sports teams competing at regional and national levels.

Boasts a vibrant nightlife scene.

Residents and visitors can enjoy a lively nightlife in Elektrostal, with numerous bars, clubs, and entertainment venues.

Promotes cultural exchange and international relations.

Elektrostal actively engages in international partnerships, cultural exchanges, and diplomatic collaborations to foster global connections.

Surrounded by beautiful nature reserves.

Nearby nature reserves, such as the Barybino Forest and Luchinskoye Lake, offer opportunities for nature enthusiasts to explore and appreciate the region’s biodiversity.

Commemorates historical events.

The city pays tribute to significant historical events through memorials, monuments, and exhibitions, ensuring the preservation of collective memory.

Promotes sports and youth development.

Elektrostal invests in sports infrastructure and programs to encourage youth participation, health, and physical fitness.

Hosts annual cultural and artistic festivals.

Throughout the year, Elektrostal celebrates its cultural diversity through festivals dedicated to music, dance, art, and theater.

Provides a picturesque landscape for photography enthusiasts.

The city’s scenic beauty, architectural landmarks, and natural surroundings make it a paradise for photographers.

Connects to Moscow via a direct train line.

The convenient train connection between Elektrostal and Moscow makes commuting between the two cities effortless.

A city with a bright future.

Elektrostal continues to grow and develop, aiming to become a model city in terms of infrastructure, sustainability, and quality of life for its residents.

In conclusion, Elektrostal is a fascinating city with a rich history and a vibrant present. From its origins as a center of steel production to its modern-day status as a hub for education and industry, Elektrostal has plenty to offer both residents and visitors. With its beautiful parks, cultural attractions, and proximity to Moscow, there is no shortage of things to see and do in this dynamic city. Whether you’re interested in exploring its historical landmarks, enjoying outdoor activities, or immersing yourself in the local culture, Elektrostal has something for everyone. So, next time you find yourself in the Moscow region, don’t miss the opportunity to discover the hidden gems of Elektrostal.

Q: What is the population of Elektrostal?

A: As of the latest data, the population of Elektrostal is approximately XXXX.

Q: How far is Elektrostal from Moscow?

A: Elektrostal is located approximately XX kilometers away from Moscow.

Q: Are there any famous landmarks in Elektrostal?

A: Yes, Elektrostal is home to several notable landmarks, including XXXX and XXXX.

Q: What industries are prominent in Elektrostal?

A: Elektrostal is known for its steel production industry and is also a center for engineering and manufacturing.

Q: Are there any universities or educational institutions in Elektrostal?

A: Yes, Elektrostal is home to XXXX University and several other educational institutions.

Q: What are some popular outdoor activities in Elektrostal?

A: Elektrostal offers several outdoor activities, such as hiking, cycling, and picnicking in its beautiful parks.

Q: Is Elektrostal well-connected in terms of transportation?

A: Yes, Elektrostal has good transportation links, including trains and buses, making it easily accessible from nearby cities.

Q: Are there any annual events or festivals in Elektrostal?

A: Yes, Elektrostal hosts various events and festivals throughout the year, including XXXX and XXXX.

Was this page helpful?

Our commitment to delivering trustworthy and engaging content is at the heart of what we do. Each fact on our site is contributed by real users like you, bringing a wealth of diverse insights and information. To ensure the highest standards of accuracy and reliability, our dedicated editors meticulously review each submission. This process guarantees that the facts we share are not only fascinating but also credible. Trust in our commitment to quality and authenticity as you explore and learn with us.

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Built by the famous Dynamique Yachts shipyard and having undergone a refit in 2018, sailing Yacht Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. ...

The 33.5m/109'11" 'Amadeus' sail yacht built by the French shipyard Dynamiq is available for charter for up to 10 guests in 5 cabins. This yacht features interior styling by French designer Philippe Briand. Whether you are after the thrill of sailing or prefer to kick back, Amadeus is custom-built for adventure, offering a ring-side seat at the heart of the action once her sails have unfurled ...

Sailing yacht AMADEUS is a luxury vessel that measures 33.5m (109.9ft) in length. She was built by the famous Dynamique Yachts shipyard in 1995 and received a total refit in 2004 and smaller refits in 2012/14 and 2018 plus new interior fabrics in 2022. AMADEUS is an elegant cutter rigged sloop with a sleek hull design painted in an eye-catching ...

Amadeus Description. Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing ...

Length : 30.2 m / Passengers : 8. Special features : - One of the most elegant SW100- Excellent and experienced crew- Very elegant interiors- Available in West and East Med- Large outdoor spaceTender: 4.30... Price Per week from : 46 000€. View this yacht. AMADEUS is a fast cruising sailing yacht built by Dynamique Yachts and totally refit in ...

The 23.85m/78'3" sail yacht 'Amadeus' was built by Custom. Her interior is styled by design house Jean Marc Piaton and she was completed in 2018. Guest Accommodation. Amadeus has been designed to comfortably accommodate up to 8 guests in 4 suites. She is also capable of carrying up to 2 crew onboard to ensure a relaxed luxury yacht experience.

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018. S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design. Comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

The yacht is maintained in excellent condition with a five-star crew year round. Sailing Yacht Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

AMADEUS I is a 44m/144' motor yacht for charter delivered by the Timmerman shipyard in 2014. Considered as a great luxury charter yacht for friends and family, AMADEUS I was fully upgraded in 2019. Her key features include a huge sundeck with a jacuzzi pool plus a brand-new beach club with a gym and sauna at sea level.

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2014, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

AMADEUS was previously registered as project/yacht name Amadeus 1er. This 33 metre (109 ft) luxury yacht was built by Dynamique Yachts in 1991. Sailing Yacht AMADEUS is a well proportioned superyacht. The yacht is a modern sloop with a cutter rig. The naval architecture office whom authored the design work on this ship was Philippe Briand.

Amadeus is a 33.5 m sailing yacht. She was built by Dynamique Yachts in 1991. With a beam of 7.5 m and a draft of 3.9 m. The sailing yacht can accommodate 12 guests in 5 cabins. The yacht was designed by Philippe Briand.

Launched in 1996 by Dynamique Yachts, Amadeus is a 110 foot sailing sloop. To keep her up to date and comfortable for her guests, she has received refits in 2014 and 2018. She has been fitted with twin 320hp Perkins Rolls Royce engines for power, along with her sails.

33.5m / 109'11 Dragos Yachts 1996 / 2007. The 34.75m/114' 'Amadeus' motor yacht built by shipyard Dragos Yachts is available for charter for up to 12 guests in 5 cabins. This yacht features interior styling by Ugar Kose. Built in 1996, Amadeus's bespoke fittings and design ensure guests can explore the ocean's wonders in style and comfort.

Sailing Yacht AMADEUS can accommodate 10-12 guests in five large cabins, including a full-width master stateroom and two double cabins, each with an extra single bed. The two twin cabins can also be converted to doubles upon request, making her the only sailboat on the Greek market with five double beds.

Fully crewed Sailing Yacht AMADEUS available for private yacht charter in Greece, the best sailing holidays & vacation in the Greek Islands. +30 6948 295 207. [email protected] . Aten, Solonos 22-24, Agii Anargiri 135 61, Greece ... Sailing Yachts; Motor Sailer; Yacht Charter Terms; V.I.P. Services; Destinations; About us;

Charter theAMADEUS. AMADEUS is a 110-foot sailing yacht that can accommodate ten to twelve passengers in five staterooms as follows: a spacious Owner's stateroom with a double bed, a vanity and an entertainment unit including TV, DVD and music system; two cabins with a double bed and an additional single bed; two cabins with two twin beds each.

AMADEUS I is a 44m luxury motor super yacht available for charter built in 2014, refitted in 2019. Charter up to 10 guests in 5 cabins (1 Master, 2 VIP, 3 Double & 2 Twin) with a crew of 9. She is also available for events and corporate charter.

No:7 Kuşadası 09400 Aydın. + (90) 256 340 03 40. [email protected] . Mon - Fri: 9:00 - 18:00. Closed on Weekends. Istanbul Branch - Türkiye. Moscow - Russia. London - United Kingdom. New York - United States of America.

Küçükbakkalköy Mah. Fevzipaşa Cad. Bozkır Sok. No:1 ,K:3 D:15 Ataşehir 34750 Istanbul + (90) 216 900 28 62 +(90) 216 576 47 90. [email protected]

Get directions to Yuzhny prospekt, 6к1 and view details like the building's postal code, description, photos, and reviews on each business in the building

The 21.95m/72' 'Amadeus' motor yacht built by the British shipyard Sunseeker is available for charter for up to 6 guests in 3 cabins.. Primed for exploring secluded beaches and tucked-away lagoons or simply relaxing and soaking up the rays onboard, motor yacht Amadeus is tailor-made for family fun.

Known as the "Motor City of Russia." Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname "Motor City" due to its significant involvement in the automotive industry.. Home to the Elektrostal Metallurgical Plant. Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

newton's law of motion assignment

Unit 3: forces and newton's laws of motion.

About this unit, newton's laws of motion.

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• What is normal force? (Opens a modal)

Balanced and unbalanced forces

• Balanced and unbalanced forces (Opens a modal)
• Unbalanced forces and motion (Opens a modal)

Slow sock on Lubricon VI

• Slow sock on Lubricon VI (Opens a modal)
• Normal forces on Lubricon VI (Opens a modal)

Inclined planes and friction

• Inclined plane force components (Opens a modal)
• Ice accelerating down an incline (Opens a modal)
• Force of friction keeping the block stationary (Opens a modal)
• Correction to force of friction keeping the block stationary (Opens a modal)
• Force of friction keeping velocity constant (Opens a modal)
• Intuition on static and kinetic friction comparisons (Opens a modal)
• Static and kinetic friction example (Opens a modal)
• What is friction? (Opens a modal)
• What are inclines? (Opens a modal)
• The force of tension (Opens a modal)
• Mild and medium tension (Opens a modal)
• Super hot tension (Opens a modal)
• What is tension? (Opens a modal)
• Introduction to tension (Opens a modal)
• Introduction to tension (part 2) (Opens a modal)
• Tension in an accelerating system and pie in the face (Opens a modal)

Treating systems

• Treating systems (the hard way) (Opens a modal)
• Treating systems (the easy way) (Opens a modal)
• Two masses hanging from a pulley (Opens a modal)
• Three box system problem (Opens a modal)
• Masses on incline system problem (Opens a modal)

Newton’s Laws of Motion

Newton’s Laws of Motion introduce students to the three famous laws that explain how motion, force, acceleration, actions, etc. work on objects. Students will learn what each law is and be able to explain them. They will also be able to provide examples that represent each law.

The “Options for Lesson” section provides several additional suggestions of things to do for the lesson. One suggestion is to group students and assign them a specific law. They can make that law the focus of their presentations. You could also have them observe examples in their neighborhoods or at home of the laws.

Description

Additional information, what our newton’s laws of motion lesson plan includes.

Lesson Objectives and Overview: Newton’s Laws of Motion teaches students the three laws that Sir Isaac Newton realized in the 17th century. Students will discover what each law is and will be able to provide examples of each. By the end of the lesson, they should be able to recognize examples of each law as they observe them happening. This lesson is for students in 5th grade and 6th grade.

Classroom Procedure

Every lesson plan provides you with a classroom procedure page that outlines a step-by-step guide to follow. You do not have to follow the guide exactly. The guide helps you organize the lesson and details when to hand out worksheets. It also lists information in the yellow box that you might find useful. You will find the lesson objectives, state standards, and number of class sessions the lesson should take to complete in this area. In addition, it describes the supplies you will need as well as what and how you need to prepare beforehand. For this lesson, you will need a variety of supplies, such as marbles, balls of different sizes, rubber bands, small toys, and so on. Read the activity worksheet to figure out what other materials you might want to use.

Options for Lesson

The “Options for Lesson” section lists a number of ideas for additional tasks or activities or alternatives ways to approach aspects of the lesson. Some of these suggestion are related to the lesson activity. Students can work alone or in pairs rather than in groups for the activity. You could assign a law to specific groups of students to focus on for their presentations. Another idea is for students to find and explain examples of Newton’s laws in real life, such as in their neighborhood, in town, or at home. You could also incorporate Newton’s laws into a math lesson. One more suggestion is to conduct a physics fair for parents where students set up exhibits that demonstrate the three laws of motion.

Teacher Notes

The paragraph on the teacher notes pages describes a little more about what you can expect from this lesson plan. It mentions that students may know the three laws but may not fully understand how they apply to their everyday lives. You may benefit from teaching this lesson at the same time as others on physics. Use the blank lines to write out your ideas or thoughts as you prepare the lesson for your class.

NEWTON’S LAWS OF MOTION LESSON PLAN CONTENT PAGES

Who is sir isaac newton.

The Newton’s Laws of Motion lesson plan contains four pages of content. The first page explains who Sir Isaac Newton is and provides some background information on him. Students will learn that he was an English mathematician, physicist, astronomer, theologian, author, and more! He is one of the most famous and influential scientists of all time. He was a natural philosopher and was a key figure in the scientific revolution. The scientific revolution was a period of events that led to developments in modern science.

When he was 45 years old, Newton published a book called  Mathematical Principles of Natural Philosophy that laid the foundations of classical mechanics. In the book, he formulated the laws of motion and universal gravitation. He used his mathematical description of gravity to prove the laws of planetary motion, account for tides, and explain other phenomena. But what people most often tend to think about when someone mentions Sir Issac Newton is the apple falling from a tree and the three laws of motion.

These three laws apply to the physics of force and motion. Scientists have tested and verified the ideas and concepts many times over hundreds of years. Therefore, they now call those ideas Newton’s Three Laws of Motion. The definitions for each law varies across different resources, but the main ideas are the same.

The First Law of Motion

The first law states that an object in motion tends to stay in motion, and an object at rest tends to stay at rest, unless acted upon by an outside, unbalanced force. (You could replace the word “object” with any example to demonstrate the point. The lesson uses “body” as an example for students. If you want, students could take turns naming different objects that stay in motion or stay at rest.)

Most objects tend to naturally remain at rest and not move. For instance, if you place a book on a desk, that book will not move unless someone or something moves it. This tendency is related to an object’s inertia. Inertia is the resistance an object has to a change in its state of motion. The heavier an object is, the more inertia it will have. That is why it is harder to move a boulder than it is to move a book. Newton’s first law is also referred to as the law of inertia.

Students will learn that forces can be either balanced or unbalanced. A balanced force has zero effect on an object. Regarding the example of a book on a desk, the force of gravity on the book balances with the force of the desk holding it. Unbalanced forces imply that the net force on an object is NOT zero. The lesson provides an example of tug-of-war where both sides apply force. The team that will win is the one that applies more force than the other.

A moving object, like a ball rolling along a flat surface, will slow down and stop eventually because of friction. Friction is another type of force. If a surface has a slope, friction will still affect an object rolling down, but gravity is stronger than friction and will enable the object to keep rolling. Air resistance is yet another force that can act upon a moving object.

The Second Law of Motion

The acceleration of an object depends on its force and mass. Another way to put it is that a force acting on an object will change its velocity by changing it speed, direction, or both. This is the second law of motion. An unbalanced force will accelerate an object and change its speed, direction, or both. In the tug-of-war example, adding people to one team will change that team’s force. The second law pertains to situations where the existing forces are unbalanced.

People often use the expression F = ma , or force equals mass times acceleration. An object’s acceleration depends on the net force acting on that object and the object’s mass. Force and acceleration are proportional to each other. That means that the amount of force equal the amount of acceleration. The harder you kick a ball, for instance, the farther and faster the ball will travel. In other words, the greater the force, the greater the acceleration.

The opposite is true of mass. The more mass an object has, the less it will accelerate. If you kick a bowling ball with the same amount of force as you do a soccer ball, the bowling ball will move slower and not go as far. It requires much more force to set a bowling ball in motion than it does a soccer ball. However, the acceleration is always in the same direction as the net force.

The Third Law of Motion

Newton’s third law states that for every action, there is a reaction that is equal in magnitude and opposite in direction. More concisely stated, for every action, there is an equal and opposite reaction. This law relates specifically to the force of an object, or push or pull upon the object. There must be two objects: one pushing and the other being pushed, for instance.

Forces result from the interactions between the two objects. The two forces exerted on the objects are called action and reaction. Friction is actually a type of reaction force. The size of the forces on one object equal the size of the force on the other. The direction of the force on the second object, however, is opposite to the direction on the first. All forces come in pairs—equal and opposite action-reaction pairs.

The lesson explains that you can describe the reaction in terms of strength or magnitude as well as direction. The magnitude of the action equals that of the reaction. If you toss a small stone into water, it will create a small splash and a few ripples. Throwing a boulder into the water creates a larger splash and more ripples.

In these examples, the magnitude of the actions and reactions are the same, but the directions are opposite. The rocks drop down into the water while the water splashes up above the surface. To illustrate this concept further, the lesson describes firing a cannon ball. When the cannon is fired, it jumps backward when the ball projects forward. As a tribute to Newton, the unit for measuring forces using these laws is called a Newton.

NEWTON’S LAWS OF MOTION LESSON PLAN WORKSHEETS

The Newton’s Laws of Motion lesson plan includes three worksheets: an activity worksheet, a practice worksheet, and a homework assignment. Each worksheet will help solidify students’ grasp of the content and help them demonstrate what they learned. The guide on the classroom procedure page explains when to hand out each worksheet to the class throughout the lesson.

DEMONSTRATE THE LAWS ACTIVITY WORKSHEET

Students will work in small groups for the activity. You will need to prepare for this activity beforehand by collecting a number of supplies. Students will write out examples of each law, using the supplies, in the corresponding box on the worksheet. They will then explain how it relates to that specific law. They should have at least two examples for each law.

MATCHING PRACTICE WORKSHEET

There are two sections of the practice worksheet. The first section lists the three laws of motion and then 10 statements. Students must decide which law the statements relate to. For the section section, they will match definitions to the correct terms. There are eight definitions and terms to match.

NEWTON’S LAWS OF MOTION HOMEWORK ASSIGNMENT

The homework assignment requires students to answer 15 questions as they relate to what students learned in the lesson. You may or may not choose to allow students to use the content pages for reference.

Worksheet Answer Keys

The final pages of the lesson plan are answer keys for both the practice and homework worksheets. All the correct answers are in red to make it easy to compare them to the responses from your students. There are a few questions on the homework page that may yield some variation in students’ responses. Keep that in mind as you grade. If you choose to administer the lesson pages to your students via PDF, you will need to save a new file that omits these pages. Otherwise, you can simply print out the applicable pages and keep these as reference for yourself when grading assignments.

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1.1: Newton’s Laws of Motion

• Last updated
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• Page ID 70202

• Daniel W. Baker and William Haynes
• Colorado State University via Engineeringstatics

Key Questions

• What are the two types of motion?
• What three relationships do Newton’s laws of motion define?
• What are physical examples for each of Newton’s three laws of motion?

The English scientist Sir Issac Newton established the foundation of mechanics in 1687 with his three laws of motion, which describe the relation between forces, objects and motion. Motion can be separated into two types:

• Translation — where a body changes position without changing its orientation in space, and
• Rotation — where a body spins about an axis fixed in space, without changing its average position.

Some moving bodies are purely translating, others are purely rotating, and many are doing both. Conveniently, we can usually separate translation and rotation and analyze them individually with independent equations.

Newton's three laws and their implications with respect to translation and rotation are described below.

Newton’s 1st Law

Newton’s first law states that

an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force .

This law, also sometimes called the “law of inertia,” tells us that bodies maintain their current velocity unless a net force is applied to change it. In other words, if an object is at rest it will remain at rest until an unbalanced force changes its velocity, and if an object is moving at a constant velocity, it will hold that velocity unless a force makes it change. Remember that velocity is a vector quantity which includes both speed and direction, so an unbalanced force may cause an object to speed up, slow down, or change direction.

Newton’s first law also applies to angular velocities, however instead of force, the relevant quantity which causes an object to rotate is called a torque by physicists, but usually called a moment by engineers. A moment, as you will learn in Chapter 4, is the rotational tendency of a force. Just as a force will cause a change in linear velocity, a moment will cause a change in angular velocity. This can be seen in things like tops, flywheels, stationary bikes, and other objects that spin on an axis when a moment is applied, but eventually stop because of the opposite moment produced by friction.

In the absence of friction this top would spin forever, but the small frictional moment exerted at the point of contact with the table will eventually bring it to a stop.

Newton’s 2nd Law

Newton’s second law is usually succinctly stated with the familiar equation

\[ \vec{F} = m \vec{a} \label{second-law}\tag{1.1.1} \]

where \(\vec{F}\) is net force, \(m\) is mass, and \(\vec{a}\) is acceleration.

You will notice that the force and the acceleration are in bold face. This means these are vector quantities, having both a magnitude and a direction. Mass on the other hand is a scalar quantity, which has only a magnitude. This equation indicates that a force will cause an object to accelerate in the direction of the net force, and the magnitude of the acceleration will be proportional to the net force but inversely proportional to the mass of the object.

In this course, Statics, we are only concerned with bodies which are not accelerating which simplifies things considerably. When an object is not accelerating \(a = 0\text{,}\) which implies that it is either at rest or moving with a constant velocity. With this restriction Newton's Second Law (1.1.1) for translation simplifies to

\[ \sum \vec{F}=0\tag{1.1.2} \]

where \(\sum \vec{F}\) is used to indicate the net force acting on the object.

Newton’s second law for rotational motions is similar

\[ \vec{M} =I \vec{\alpha}\text{.}\label{second-law-rotation}\tag{1.1.3} \]

This equation states that a net moment \(\vec{M}\) acting on an object will cause an angular acceleration \(\vec{\alpha}\) proportional to the net moment and inversely proportional to \(I\text{,}\) a quantity known as the mass moment of inertia. Mass moment of inertia for rotational acceleration is analogous to ordinary mass for linear acceleration. We will have more to say about the moment of inertia in Chapter 10.

Again, we see that the net moment and angular acceleration are vectors, quantities with magnitude and direction. The mass moment of inertia, on the other hand, is a scalar quantity and has only a magnitude. Also, since Statics deals only with objects which are not accelerating \(\vec{\alpha} = 0\text{,}\) they will always be at rest or rotating with constant angular velocity. With this restriction Newton's second law implies that the net moment on all static objects is zero.

\[ \sum \vec{M}=0\tag{1.1.4} \]

Newton’s 3rd Law

Newton’s Third Law states

For every action, there is an equal and opposite reaction.

The actions and reactions Newton is referring to are forces . Forces occur whenever one object interacts with another, either directly like a push or pull, or indirectly like magnetic or gravitational attraction. Any force acting on one body is always paired with another equal-and-opposite force acting on some other body.

These equal-and-opposite pairs can be confusing, particularly when there are multiple interacting bodies. To clarify, we always begin solving statics problems by drawing a free-body diagram — a sketch where we isolate a body or system of interest and identify the forces acting on it, while ignoring any forces exerted by it on interacting bodies.

Consider the situation in figure Figure 1.1.5. Diagram (a) shows a book resting on a table supported by the floor. The weights of the book and table are placed at their centers of gravity. To solve for the forces on the legs of the table, we use the free-body diagram in (b) which treats the book and the table as a single system and replaces the floor with the forces of the floor on the table. In diagram (c) the book and table are treated as independent objects. By separating them, the equal-and-opposite interaction forces of the book on the table and the table on the book are exposed.

Figure \(\PageIndex{5}\): Free-body diagrams are used to isolate objects and identify relevant forces and moments.

This will be discussed further in Chapter 3 and Chapter 5.

4.3 Newton's Second Law of Motion

Section learning objectives.

By the end of this section, you will be able to do the following:

• Describe Newton’s second law, both verbally and mathematically
• Use Newton’s second law to solve problems

Teacher Support

The learning objectives in this section will help students master the following standards:

• (D) calculate the effect of forces on objects, including the law of inertia, the relationship between force and acceleration, and the nature of force pairs between objects.

Before beginning this section, review forces, acceleration, acceleration due to gravity (g), friction, inertia, and Newton’s first law.

Section Key Terms

Describing newton’s second law of motion.

[BL] [OL] Review the concepts of inertia and Newton’s first law. Explain that, according to Newton’s first law, a change in motion is caused by an external force. For instance, a ball that is pitched changes its speed and direction when it is hit by a bat.

[BL] [OL] [AL] Write the equation for Newton’s second law and show how it can be solved for all three variables, F , m , and a . Explain the practical implications for each case. Ask students how the other two variables would behave if one quantity is held constant.

Misconception Alert

Students might confuse the terms equal and proportional .

Newton’s first law considered bodies at rest or bodies in motion at a constant velocity . The other state of motion to consider is when an object is moving with a changing velocity, which means a change in the speed and/or the direction of motion. This type of motion is addressed by Newton’s second law of motion , which states how force causes changes in motion. Newton’s second law of motion is used to calculate what happens in situations involving forces and motion, and it shows the mathematical relationship between force, mass , and acceleration . Mathematically, the second law is most often written as

where F net (or ∑ F ) is the net external force , m is the mass of the system, and a is the acceleration. Note that F net and ∑ F are the same because the net external force is the sum of all the external forces acting on the system.

First, what do we mean by a change in motion ? A change in motion is simply a change in velocity: the speed of an object can become slower or faster, the direction in which the object is moving can change, or both of these variables may change. A change in velocity means, by definition, that an acceleration has occurred. Newton’s first law says that only a nonzero net external force can cause a change in motion, so a net external force must cause an acceleration. Note that acceleration can refer to slowing down or to speeding up. Acceleration can also refer to a change in the direction of motion with no change in speed, because acceleration is the change in velocity divided by the time it takes for that change to occur, and velocity is defined by speed and direction.

From the equation F net = m a , F net = m a , we see that force is directly proportional to both mass and acceleration, which makes sense. To accelerate two objects from rest to the same velocity, you would expect more force to be required to accelerate the more massive object. Likewise, for two objects of the same mass, applying a greater force to one would accelerate it to a greater velocity.

Now, let’s rearrange Newton’s second law to solve for acceleration. We get

In this form, we can see that acceleration is directly proportional to force, which we write as

where the symbol ∝ ∝ means proportional to .

This proportionality mathematically states what we just said in words: acceleration is directly proportional to the net external force. When two variables are directly proportional to each other, then if one variable doubles, the other variable must double. Likewise, if one variable is reduced by half, the other variable must also be reduced by half. In general, when one variable is multiplied by a number, the other variable is also multiplied by the same number. It seems reasonable that the acceleration of a system should be directly proportional to and in the same direction as the net external force acting on the system. An object experiences greater acceleration when acted on by a greater force.

It is also clear from the equation a = F net / m a = F net / m that acceleration is inversely proportional to mass, which we write as

Inversely proportional means that if one variable is multiplied by a number, the other variable must be divided by the same number. Now, it also seems reasonable that acceleration should be inversely proportional to the mass of the system. In other words, the larger the mass (the inertia), the smaller the acceleration produced by a given force. This relationship is illustrated in Figure 4.5 , which shows that a given net external force applied to a basketball produces a much greater acceleration than when applied to a car.

Applying Newton’s Second Law

[BL] Review how to convert between units.

[OL] [AL] Ask students to give examples of Newton’s second law.

Students might confuse weight, which is a force, and g , which is the acceleration due to gravity.

[BL] [OL] [AL] Ask students if they think an astronaut weighs the same on the moon as they do on Earth. Talk about the difference between mass and weight.

Before putting Newton’s second law into action, it is important to consider units. The equation F net = m a F net = m a is used to define the units of force in terms of the three basic units of mass, length, and time (recall that acceleration has units of length divided by time squared). The SI unit of force is called the newton (abbreviated N) and is the force needed to accelerate a 1-kg system at the rate of 1 m/s 2 . That is, because F net = m a , F net = m a , we have

One of the most important applications of Newton’s second law is to calculate weight (also known as the gravitational force ), which is usually represented mathematically as W . When people talk about gravity , they don’t always realize that it is an acceleration. When an object is dropped, it accelerates toward the center of Earth. Newton’s second law states that the net external force acting on an object is responsible for the acceleration of the object. If air resistance is negligible, the net external force on a falling object is only the gravitational force (i.e., the weight of the object).

Weight can be represented by a vector because it has a direction. Down is defined as the direction in which gravity pulls, so weight is normally considered a downward force. By using Newton’s second law, we can figure out the equation for weight.

Consider an object with mass m falling toward Earth. It experiences only the force of gravity (i.e., the gravitational force or weight), which is represented by W. Newton’s second law states that F net = m a . F net = m a . Because the only force acting on the object is the gravitational force, we have F net = W . F net = W . We know that the acceleration of an object due to gravity is g , so we have a = g . a = g . Substituting these two expressions into Newton’s second law gives

This is the equation for weight—the gravitational force on a mass m . On Earth, g = 9.80  m/s 2 , g = 9.80  m/s 2 , so the weight (disregarding for now the direction of the weight) of a 1.0-kg object on Earth is

Although most of the world uses newtons as the unit of force, in the United States the most familiar unit of force is the pound (lb), where 1 N = 0.225 lb.

Recall that although gravity acts downward, it can be assigned a positive or negative value, depending on what the positive direction is in your chosen coordinate system. Be sure to take this into consideration when solving problems with weight. When the downward direction is taken to be negative, as is often the case, acceleration due to gravity becomes –g = −9.8 m/s 2 and the weight force is –mg.

When the net external force on an object is its weight, we say that it is in freefall . In this case, the only force acting on the object is the force of gravity. On the surface of Earth, when objects fall downward toward Earth, they are never truly in freefall because there is always some upward force due to air resistance that acts on the object (and there is also the buoyancy force of air, which is similar to the buoyancy force in water that keeps boats afloat).

Gravity varies slightly over the surface of Earth, so the weight of an object depends very slightly on its location on Earth. Weight varies dramatically away from Earth’s surface. On the moon, for example, the acceleration due to gravity is only 1.67 m/s 2 . Because weight depends on the force of gravity, a 1.0-kg mass weighs 9.8 N on Earth and only about 1.7 N on the moon.

It is important to remember that weight and mass are very different, although they are closely related. Mass is the quantity of matter in an object (how much stuff there is, or how hard it is to accelerate it) and does not vary, but weight is the gravitational force on an object and is proportional to the force of gravity. It is easy to confuse the two, because our experience is confined to Earth, and the weight of an object is essentially the same no matter where you are on Earth. Adding to the confusion, the terms mass and weight are often used interchangeably in everyday language; for example, our medical records often show our weight in kilograms, but never in the correct unit of newtons.

• Mass and Weight

Explain that even though a scale gives a mass, it actually measures weight. Scales are calibrated to show the correct mass on Earth. They would give different results on the moon, because the force of gravity is weaker on the moon.

In this activity, you will use a scale to investigate mass and weight.

• 1 bathroom scale
• What do bathroom scales measure?
• When you stand on a bathroom scale, what happens to the scale? It depresses slightly. The scale contains springs that compress in proportion to your weight—similar to rubber bands expanding when pulled.
• The springs provide a measure of your weight (provided you are not accelerating). This is a force in newtons (or pounds). In most countries, the measurement is now divided by 9.80 to give a reading in kilograms, which is a of mass. The scale detects weight but is calibrated to display mass.
• If you went to the moon and stood on your scale, would it detect the same mass as it did on Earth?

Grasp Check

While standing on a bathroom scale, push down on a table next to you. What happens to the reading? Why?

• The reading increases because part of your weight is applied to the table and the table exerts a matching force on you that acts in the direction of your weight.
• The reading increases because part of your weight is applied to the table and the table exerts a matching force on you that acts in the direction opposite to your weight.
• The reading decreases because part of your weight is applied to the table and the table exerts a matching force on you that acts in the direction of your weight.
• The reading decreases because part of your weight is applied to the table and the table exerts a matching force on you that acts in the direction opposite to your weight.

Tips For Success

Only net external force impacts the acceleration of an object. If more than one force acts on an object and you calculate the acceleration by using only one of these forces, you will not get the correct acceleration for that object.

Watch Physics

Newton’s second law of motion.

This video reviews Newton’s second law of motion and how net external force and acceleration relate to one another and to mass. It also covers units of force, mass, and acceleration, and reviews a worked-out example.

True or False —If you want to reduce the acceleration of an object to half its original value, then you would need to reduce the net external force by half.

Worked Example

What acceleration can a person produce when pushing a lawn mower.

Suppose that the net external force (push minus friction) exerted on a lawn mower is 51 N parallel to the ground. The mass of the mower is 240 kg. What is its acceleration?

Because F net and m are given, the acceleration can be calculated directly from Newton’s second law: F net = m a .

Solving Newton’s second law for the acceleration, we find that the magnitude of the acceleration, a , is a = F net m . a = F net m . Entering the given values for net external force and mass gives

Inserting the units kg ⋅ m/s 2 kg ⋅ m/s 2 for N yields

The acceleration is in the same direction as the net external force, which is parallel to the ground and to the right. There is no information given in this example about the individual external forces acting on the system, but we can say something about their relative magnitudes. For example, the force exerted by the person pushing the mower must be greater than the friction opposing the motion, because we are given that the net external force is in the direction in which the person pushes. Also, the vertical forces must cancel if there is no acceleration in the vertical direction (the mower is moving only horizontally). The acceleration found is reasonable for a person pushing a mower; the mower’s speed must increase by 0.21 m/s every second, which is possible. The time during which the mower accelerates would not be very long because the person’s top speed would soon be reached. At this point, the person could push a little less hard, because he only has to overcome friction.

What Rocket Thrust Accelerates This Sled?

Prior to manned space flights, rocket sleds were used to test aircraft, missile equipment, and physiological effects on humans at high accelerations. Rocket sleds consisted of a platform mounted on one or two rails and propelled by several rockets. Calculate the magnitude of force exerted by each rocket, called its thrust, T , for the four-rocket propulsion system shown below. The sled’s initial acceleration is 49  m/s 2 , 49  m/s 2 , the mass of the system is 2,100 kg, and the force of friction opposing the motion is 650 N.

The system of interest is the rocket sled. Although forces act vertically on the system, they must cancel because the system does not accelerate vertically. This leaves us with only horizontal forces to consider. We’ll assign the direction to the right as the positive direction. See the free-body diagram in Figure 4.8.

We start with Newton’s second law and look for ways to find the thrust T of the engines. Because all forces and acceleration are along a line, we need only consider the magnitudes of these quantities in the calculations. We begin with

where F net F net is the net external force in the horizontal direction. We can see from Figure 4.8 that the engine thrusts are in the same direction (which we call the positive direction), whereas friction opposes the thrust. In equation form, the net external force is

Newton’s second law tells us that F net = m a , so we get

After a little algebra, we solve for the total thrust 4 T :

which means that the individual thrust is

Inserting the known values yields

The numbers are quite large, so the result might surprise you. Experiments such as this were performed in the early 1960s to test the limits of human endurance and to test the apparatus designed to protect fighter pilots in emergency ejections. Speeds of 1000 km/h were obtained, with accelerations of 45 g . (Recall that g, the acceleration due to gravity, is 9 .80 m/s 2 . 9 .80 m/s 2 . An acceleration of 45 g is 45 × 9 .80 m/s 2 , 45 × 9 .80 m/s 2 , which is approximately 440 m/s 2 . 440 m/s 2 . ) Living subjects are no longer used, and land speeds of 10,000 km/h have now been obtained with rocket sleds. In this example, as in the preceding example, the system of interest is clear. We will see in later examples that choosing the system of interest is crucial—and that the choice is not always obvious.

Practice Problems

If 1 N is equal to 0.225 lb, how many pounds is 5 N of force?

How much force needs to be applied to a 5-kg object for it to accelerate at 20 m/s 2 ?

Check Your Understanding

Use the questions in Check Your Understanding to assess whether students have achieved the section learning objectives. If students are struggling with a specific objective, the Check Your Understanding assessment will help identify which is causing the problem and direct students to the relevant content.

What is the mathematical statement for Newton’s second law of motion?

• F = m a F = m a

Newton’s second law describes the relationship between which quantities?

• Force, mass, and time
• Force, mass, and displacement
• Force, mass, and velocity
• Force, mass, and acceleration
• Acceleration is the rate at which displacement changes.
• Acceleration is the rate at which force changes.
• Acceleration is the rate at which velocity changes.
• Acceleration is the rate at which mass changes.

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Want to cite, share, or modify this book? This book uses the Creative Commons Attribution License and you must attribute Texas Education Agency (TEA). The original material is available at: https://www.texasgateway.org/book/tea-physics . Changes were made to the original material, including updates to art, structure, and other content updates.

Access for free at https://openstax.org/books/physics/pages/1-introduction

• Authors: Paul Peter Urone, Roger Hinrichs
• Publisher/website: OpenStax
• Book title: Physics
• Publication date: Mar 26, 2020
• Location: Houston, Texas
• Book URL: https://openstax.org/books/physics/pages/1-introduction
• Section URL: https://openstax.org/books/physics/pages/4-3-newtons-second-law-of-motion

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Objectives - Newton's Laws of Motion

The Minds On Physics program consists of 15 modules. Each module covers a different topic and consists of a varying number of assignments. Every assignment addresses one or two objectives. The objectives for the Newton's Laws of Motion module are listed below.

• The student should understand the significance of Newton's law of inertia by identifying and refuting classic misconceptions concerning the causes of motion.
• The student should recognize inertia as a property of an object which depends solely upon mass.  
• The student should be able to relate the presence of balanced or unbalanced forces to the state of motion of an object.
• The student should be able to relate force diagrams and force information to information describing the motion of an object.  
• The student should be able to relate the state of motion of an object (especially the direction of the acceleration) to the magnitudes of the individual forces which act upon it.
• The student should be able to relate the net force of an object to the acceleration of the object.  
• The student should be able to identify the forces acting upon an object if given a physical description of the situation.  
• The student should be able to analyze a physical scenario and determine the relative magnitude of forces acting upon the object in the scenario.  
• The student should be able to distinguish between the concepts of mass and weight.
• The student should be able to calculate the mass of an object if given its weight (or vice versa).  
• The student should be able to identify the proportional relationship between acceleration, net force, and mass.
• The student should be able to predict the quantitative effect of an alteration in the net force or mass of an object upon the acceleration of that object.  
• The student should be able to utilize Newton's second law equation to algebraically solve for an unknown quantity - acceleration, net force, or mass.
• The student should be able to analyze and interpret a free-body diagram and determine the acceleration of an object.  
• The student should be able to interpret a physics word problem to retrieve pertinent information and calculate the acceleration of an object.
• The student should be able to interpret a physics word problem to retrieve pertinent information and calculate the magnitude of an individual force.  
• The student should be able to state the definition of free fall and identify common characteristics of free-falling objects.
• The student should be able to describe the effect of mass upon a free-falling object and to calculate the speed and displacement of free-falling objects.  
• The student should be able to identify the factors effecting the amount of air resistance and describe the effect of air resistance upon a falling object.
• The student should be able to define terminal velocity, identify the causes of terminal velocity, and describe the factors effecting the magnitude of the terminal velocity.  
• The student should be able to identify action-reaction force pairs for any physical situation.
• The student should be able to compare the magnitudes of action-reaction force pairs and describe the effect (and the non-effect) of action-reaction force pairs on the two interacting objects.  

Assignment: Newton's Laws of Motion

Created by Monica W on 01/20/2022

8 activities: 7 games, 1 assessment

Activity 1: Assessment. Estimated duration: 10 min

Assessment with 10 questions from Factors Influencing Motion : Newton's First and Second Laws.

10 questions assessment

Activity 2: Question Game. Estimated duration: 18 min

Angry Contraptions

This is a physics-based puzzle game where you must collect all the stars on the level. You do this by using Newton's first and second laws to propel three types of balls into the air, but each ball has a different mass. You will have to find a different way to throw each ball. At the end of each level, there is a quiz on the Newton's first and second laws.

Teacher Ratings (191) 4.2 stars.

Student Ratings (17772) 3.4 stars.

Activity 3: Question Game. Estimated duration: 13 min

Newton's Apple (Mid)

You are an apple on the adventure of a lifetime. To succeed in your adventure, you will be introduced to Newton's Laws of Motion before you get started. You will need to collect knowledge, keys, and coins to unlock the doors in your journey. Along the way challenges will be encountered which only you can solve by mastering Newton's laws. Good luck!

Teacher Ratings (140) 4.4 stars.

Student Ratings (39000) 3.7 stars.

Activity 4: Question Game. Estimated duration: 21 min

Little Newton

Little Newton is lost! Your task is to guide Little Newton to his home. At each level, Little Newton will learn new skills related to force and motion like acceleration, friction, gravity and even elasticity. These skills will help him navigate his journey and succeed in each level. Your ultimate goal is to apply Newton's Laws and help little Newton safely find his way home!

Teacher Ratings (224) 4.3 stars.

Student Ratings (16714) 3.6 stars.

Activity 5: Instructional Game. Estimated duration: 12 min

Push'em Robots

Be a Robot Boxing champion! Strike boxes and other robots with the right force by applying Newton's First and Second Laws.

Teacher Ratings (54) 4.4 stars.

Student Ratings (17785) 3.4 stars.

Activity 6: Instructional Game. Estimated duration: 15 min

Newton's Golf Island

Newton's Golf Island is a physics-based game where you have to play golf while learning about Newton's first and second laws. Aim, shoot and release to hit the target holes and get the highest score!

Teacher Ratings (117) 4.5 stars.

Student Ratings (55196) 4.1 stars.

Activity 7: Instructional Game. Estimated duration: 8 min

Bot Lab: Newton's First and Second Laws

Welcome to the Bots laboratory! Take part of the crew and learn about Newton's First and Second Laws.

Teacher Ratings (34) 4.5 stars.

Student Ratings (15278) 3.1 stars.

Activity 8: Instructional Game. Estimated duration: 5 min

Blueprint Bash: Newton's 1st & 2nd Laws

Play this game for different demonstrations of Newton's first and second laws of motion. In this game, you will be presented with a series of questions about Newton's first and second laws of motion. You might need a pencil or a calculator handy! As you work through the questions, you will utilize the equation a=f/m and apply your knowledge of relevant terminology. You might need a pencil or a calculator handy!

Teacher Ratings (68) 4.1 stars.

Student Ratings (15133) 3.1 stars.

• Introduction To Motion
• Laws Of Motion

This article will go through Sir Isaac Newton’s Laws of Motion, which revolutionised our understanding of the physical world centuries ago. This article explores Newton’s three laws and provides a deep understanding of their implications. Starting with Newton’s First Law of Motion, also known as the Law of Inertia, we delve into how objects behave when at rest or in uniform motion. Moving on to Newton’s Second Law of Motion, we unravel the relationship between mass, acceleration and external forces. Next, we explore Newton’s Third Law of Motion, shedding light on the concept of action and reaction. A concise summary of Newton’s laws offers a recap of the key concepts, while numerical examples in the Laws of Motion Numericals section demonstrate practical applications. Finally, our Frequently Asked Questions (FAQs) section covers additional queries, ensuring a comprehensive understanding of Newton’s Laws of Motion.

Newton’s First Law of Motion

Newton’s First Law of Motion, also known as the Law of Inertia, is a fundamental principle that describes the behaviour of objects in the absence of external influences. The term “Law of Inertia” emphasizes the concept of inertia, which refers to the property of massive objects to resist changes in their state of motion. This idea stems from the observation that objects naturally maintain their current state of rest or motion, resisting any changes unless acted upon by an external force.

By naming the first law of motion the “Law of Inertia,” Newton highlighted this inherent property of objects and laid the groundwork for understanding how forces can cause changes in motion. Newton’s first law of motion states that objects persist in their current state of motion unless compelled to do otherwise by an external force. Whether an object is at rest or in uniform motion, it will continue in that state unless a net external force acts upon it.

One crucial insight provided by Newton’s First Law is that the object will maintain a constant velocity in the absence of a net force resulting from unbalanced forces acting on an object. If the object is already in motion, it will continue moving at the same speed and direction. Likewise, if the object is at rest, it will remain stationary. However, introducing an additional external force will cause the object’s velocity to change, responding to the magnitude and direction of the force applied.

Understanding Newton’s First Law of Motion sets the stage for a deeper exploration of the subsequent laws that govern the complexities of motion. By comprehending this fundamental principle, we gain crucial insights into how objects behave independently and how external forces influence their motion. The first law of motion provides a strong foundation for further understanding the dynamics and behaviour of objects in the physical world.

Newton’s Second Law of Motion

This section will explore Newton’s Second Law of Motion, which provides a deeper understanding of how bodies respond to external forces.

The second law of motion describes the relationship between the force acting on a body and the resulting acceleration. According to Newton’s second law, the force acting on an object is equal to the product of its mass and acceleration.

Mathematically, we express Newton’s Second Law as follows:

Here, F represents the force, m is the object’s mass and a is the acceleration produced. This equation reveals that the acceleration of an object is directly proportional to the magnitude of the net force applied in the same direction as the force and inversely proportional to the object’s mass.

By understanding Newton’s Second Law, we can determine how much an object will accelerate when subjected to a specific net force. The equation highlights the intricate relationship between force, mass, and acceleration, providing a quantitative framework for analysing the dynamics of objects in motion.

In the second law equation, a proportionality constant is represented by the letter “k.” When using the SI unit system, this constant is equal to 1. Therefore, the final expression simplifies to:

The concise and powerful expression of Newton’s Second Law showcases the fundamental principle that governs the relationship between force and acceleration in physics. With this law, we gain a quantitative understanding of how external forces impact the motion of objects based on their mass and the resulting acceleration they experience.

By exploring Newton’s Second Law of Motion , we deepen our insights into the mechanics of motion, setting the stage for further exploration of the principles that govern the complexities of physical phenomena.

Newton’s Third Law of Motion

This section will discuss Newton’s Third Law of Motion, revealing a fascinating relationship between forces exerted by interacting bodies.

Newton’s Third Law of Motion states that for every action, there is an equal and opposite reaction. When two bodies interact, they apply forces on each other that are equal in magnitude and opposite in direction. This law highlights the concept that forces always occur in pairs.

To illustrate this principle, consider the example of a book resting on a table. As the book applies a downward force equal to its weight on the table, the table, in turn, exerts an equal and opposite force on the book. This occurs because the book slightly deforms the table’s surface, causing the table to push back on the book, much like a compressed spring releasing its energy.

This third law of motion has profound implications, including conserving momentum. Momentum is a property of moving objects determined by an object’s mass and velocity. According to Newton’s third law, the total momentum of an isolated system remains constant. This means that in any interaction, the total momentum before and after the interaction remains the same, regardless of the forces involved.

Understanding Newton’s third law of motion deepens our comprehension of the interconnectedness and equilibrium within the physical world. It provides a framework for analysing and predicting the effects of forces in various scenarios, from everyday interactions to complex mechanical systems.

As we delve further into the subsequent sections on the laws of motion, we will continue building upon the foundational principles of inertia, force, and action-reaction relationships.

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Explaining Everyday Phenomena with Newton’s Laws of Motion

Jack wonders why his wallet falls from the passenger seat to the floor while driving to work. How can we explain this phenomenon using physics?

We can explain this to Jack using Newton’s first law of motion. Due to its inertia, the wallet tends to maintain its state of motion. As the car accelerates or decelerates, the wallet continues moving forward with the same velocity before the car’s motion changes. However, when the car suddenly stops or changes direction, an external force (in this case, the force exerted by the car floor) acts on the wallet, causing it to slide off the seat and onto the floor. This is because the wallet resists changes in its state of motion, as Newton’s first law of motion described.

Using Newton’s laws, how can we explain the magician’s ability to pull a tablecloth from underneath dishes?

Newton’s first law of motion best explains the magician’s trick of pulling a tablecloth from underneath dishes. The magician carefully applies a negligible horizontal force to the tablecloth while quickly pulling it. According to Newton’s first law, objects at rest (the dishes and glasses) tend to remain in their state of motion or rest unless acted upon by an external force. In this case, the sudden pull of the tablecloth applies a minimal frictional force on the dishes and glasses. Since the tablecloth is made extremely slippery, it reduces the friction between the tablecloth and the dishes, allowing them to remain undisturbed and stay in their original state of motion or rest.

We gain insights into various phenomena by understanding and applying Newton’s laws of motion. We can explain seemingly perplexing situations like the movement of objects in a moving car or the magician’s illusionary tricks involving objects on a table. These laws provide a solid foundation for comprehending the principles governing motion in our everyday lives.

Laws of Motion Summary

This section presents a visual summary of Newton’s Laws of Motion in the form of a flowchart. The flowchart provides an easy and digestible format to remember the key principles underlying the three laws of motion.

The flowchart highlights the three laws of motion established by Sir Isaac Newton:

• Newton’s First Law of Motion: The law of inertia states that an object at rest will remain at rest, and an object in motion will continue moving with a constant velocity, unless acted upon by an external force.
• Newton’s Second Law of Motion: This law relates the force acting on an object to its mass and acceleration. The force is equal to the product of mass and acceleration, where acceleration is the rate of change of velocity.
• Newton’s Third Law of Motion: The law of action and reaction states that for every action, there is an equal and opposite reaction. When one body exerts a force on another body, the second body simultaneously exerts a force of the same magnitude but in the opposite direction on the first body.

By referring to this flowchart, you can quickly grasp the fundamental principles of Newton’s Laws of Motion and understand how they govern the behaviour of objects in various scenarios. It serves as a useful tool for remembering Newton’s three laws of motion.

Laws of Motion Numericals

1. suppose a bike with a rider on it having a total mass of 63 kg brakes and reduces its velocity from 8.5 m/s to 0 m/s in 3.0 seconds. what is the magnitude of the braking force.

The combined mass of the rider and the bike = 63 kg Initial Velocity = 8.5 m/s Final Velocity = 0 m/s The time in which the bike stops = 3 s

The net force acting on the body equals the rate of change of an object’s momentum.

The momentum of a body with mass m and velocity v is given by  p = mv

Hence, the change in momentum of the bike is given by

Hence, the net force acting on the bike is given by

Substituting the value, we get

The magnitude of the braking force is -178.5 N.

2. Calculate the net force required to give an automobile of mass 1600 kg an acceleration of 4.5 m/s 2 .

We calculate the force using the following formula.

Substituting the values in the equation, we get

Frequently Asked Questions – FAQs

Who discovered the three laws of motion, why are the laws of motion important, what are newton’s laws of motion all about, what is the difference between newton’s laws of motion and kepler’s laws of motion, what are some daily life examples of newton’s 1st, 2nd and 3rd laws of motion.

• The motion of a ball falling through the atmosphere or a model rocket being launched up into the atmosphere are both excellent examples of Newton’s 1st law.
• Riding a bicycle is an excellent example of Newton’s 2nd law. In this example, the bicycle is the mass. The leg muscles pushing on the pedals of the bicycle is the force.
• You hit a wall with a certain amount of force, and the wall returns that same amount of force. This is an example of Newton’s 3rd law.

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5.5: Applying Newton’s Laws

• Page ID 19391

Now that we have introduced all of the concepts from Newton’s Theory of Classical Physics, we present some general strategies for building models that use the theory. Recall that if we can describe the motion of all objects of interest to us, we have described everything that we can. Newton’s Second Law allows us to determine the acceleration of an object based on the net force acting on the object. Once we have determined the accelerations of all objects of interest we have built a complete model.

The most important step in applying Newton’s Theory is to identify the forces that are exerted on an object. The most important step in applying Newton’s Theory is to identify the forces that are exerted on an object. The most important step in applying Newton’s Theory is to identify the forces that are exerted on an object. Now that you have read it three times, you realize this step is important, right?!

The strategy for building a model for the motion of an object using Newton’s Theory is straightforward:

• Identify an inertial frame of reference in which to build the model.
• Identify the forces acting on the object (did we mention that this step is important?).
• Draw a free-body diagram.
• Apply Newton’s Second Law.

Identifying the forces

The first step in applying Newton’s theory is to identify all of the forces that are acting on an object. This can be done by asking yourself: “what could possibly be pushing or pulling on the object?”, as well as running through the list of forces that we enumerated in Section 5.2 to identify if any of them are relevant here. For easy reference, we reproduce the types of forces here and include some questions that you might ask yourself to decide whether or not to include the corresponding force:

• Weight (is the object near the surface of a planet?).
• Normal forces (is the object in contact with any surface? There could be more than one!).
• Frictional forces (are there static or kinetic friction forces associated with the normal forces?).
• Tension forces (is something like a rope pulling on the object?).
• Drag forces (is the object moving through a fluid?).
• Spring forces (is there a spring pushing or pulling on the object?).
• Applied forces (is anything else pushing or pulling on the object?).

Example \(\PageIndex{1}\)

A block of mass \(m\) is at rest on a horizontal table, as shown in Figure \(\PageIndex{1}\). What forces are exerted on the block?

The forces on the block are illustrated in Figure \(\PageIndex{2}\) and are:

• \(\vec F_g\) , its weight.
• \(\vec N\) , a normal force exerted by the plane. The normal force is perpendicular to the interface between the table and the block. It points upwards in “reaction” to the downwards force that the block exerts onto the table. The downwards force from the block onto the table is not shown, since that force is not exerted on the block but on the table.

Example \(\PageIndex{2}\)

A block of mass \(m\) is at rest on a inclined surface, as shown in Figure 5.4.3. What forces are exerted on the block?

The forces on the block are illustrated in Figure \(\PageIndex{4}\) and are:

• \(\vec N\) , a normal force exerted by the inclined plane.
• \(\vec f_s\) , a force of static friction exerted by the inclined plane. Without this force, the block would slide down. The force is in the direction opposite of impeding motion and is parallel to the interface (and perpendicular to the normal force).

Example \(\PageIndex{3}\)

A block of mass \(m\) is at rest on a wedge-shaped block of mass \(M\) itself at rest on a horizontal table, as shown in Figure \(\PageIndex{5}\). What forces are exerted on each of the two blocks?

Since it will be too messy to draw all of the forces on the same diagram, we have drawn each block separately in Figure \(\PageIndex{5}\) . Usually, when multiple blocks are stacked on each other, it is easiest to start with the forces on the top block. In this case, the top block is in the same condition as the block from Example 5.4.2. The forces exerted on the top block are:

• \(\vec F_g^m\) , its weight.
• \(\vec N^m\) , a normal force from the wedge-shaped block.
• \(\vec f_s^m\) , a force of static friction exerted by the wedge-shaped block.

The forces exerted on the wedge-shaped block are:

• \(\vec F_g^M\) , its weight.
• \(\vec N^M\) , a normal force exerted by the small block. Note that this force is equal in magnitude and opposite in direction to \(\vec N^m\) (the two forces, \(\vec N^m\) and \(\vec N^M\) , which are on different objects, are an action/reaction pair of forces).
• \(\vec f_s^M\) , a force of friction exerted by the small block (again, this forms an action/reaction pair of forces with \(\vec f_s^m\) ).
• \(N_2^M\) , a normal force exerted by the table.

The forces for both blocks are shown in Figure \(\PageIndex{6}\).

Free body diagrams

In order to analyze the forces on an object more clearly, it is a very good idea to draw a “Free-Body Diagram” (FBD). A free-body diagram is simply a diagram where we draw the forces on a single object and represent the object as a point. Because the object is a point, we do not worry where on the object the forces are exerted. In later chapters, we will see that for extended bodies, it does matter where the forces are applied. However, Newton’s Laws as presented so far are only valid for objects that can be represented as a small point.

In Example 5.4.3 above, we would draw one free-body diagram for each object (each mass), as shown in Figure \(\PageIndex{7}\).

Example \(\PageIndex{4}\)

Two blocks, of masses \(m_{1}\) and \(m_{2}\), are placed on an inclined plane that makes an angle \(θ\) with the horizontal. The blocks are connected by a massless string, as shown in Figure \(\PageIndex{8}\). The two blocks are sliding and accelerating downwards with an acceleration, \(\vec a\), as shown. The coefficient of kinetic friction between the plane and either block is \(µ_{k}\). Draw a free-body diagram for each block.

First, we identify the forces on each mass (each block), which we then use to make the free-body diagram shown in Figure \(\PageIndex{8}\). On mass \(m_1\) , the forces are:

• \(\vec F_{g1}\) , its weight.
• \(\vec N_1\) , a normal force exerted by the inclined plane.
• \(\vec f_{k1}\) , a force of kinetic friction exerted by the inclined plane. The force is in the opposite direction of the motion, and has a magnitude given by \(f_{k1}=\mu_kN_1\) .
• \(\vec T\) , a force of tension from the string.

On mass \(m_2\) , the forces are:

• \(\vec F_{g2}\) , its weight.
• \(\vec N_2\) , a normal force from the inclined plane.
• \(\vec f_{k2}\) , a force of kinetic friction exerted by the inclined plane. The force is in the opposite direction of the motion, and has a magnitude given by \(f_{k2}=\mu_kN_2\) .
• \(-\vec T\) , a force of tension from the string. This is the same force as on \(m_1\) , but in the opposite direction. We chose to label the force as \(-\vec T\) , instead of using a different variable, since it is just the negative of the vector that represents the tension force on \(m_1\) .

In Figure \(\PageIndex{9}\), we have shown the forces on each block using a free-body diagram. We also reproduced the vector for the acceleration (we drew the vector for the acceleration using a thicker arrow to indicate that it has a different dimension). We also reproduced the angle \(\theta\) in the free-body diagram, as this is helpful once the free-body diagram is used with Newton’s Second Law.

Using Newton’s Second Law

Applying Newton’s Second Law is straightforward once all of the forces exerted on an object have been identified. You should thus make sure that you spend most of your time drawing a good and complete free-body diagram before proceeding.

Newton’s Second Law is a vector equation that relates the vector sum of all forces exerted on an object and the acceleration vector of the object. This corresponds to one scalar equation per component of the vector.

\[\begin{aligned} \sum \vec F &=m\vec a\\ \sum F_x &= ma_x \\ \sum F_y &= ma_y \\ \sum F_z &= ma_z\end{aligned}\]

In order to use Newton’s Second Law, we thus need to introduce a coordinate system so that we can work with the components of the vectors (forces and acceleration) in that coordinate system. Usually, a good choice of coordinate system is one where the \(x\) (or \(y\) ) axis is parallel to the acceleration vector. Figure \(\PageIndex{10}\) shows the free-body diagram from the \(m_1\) block from the previous example ( Example 5.4.4 ) along with a good choice of coordinate system.

To apply Newton’s Second Law using the free-body diagram and coordinate system from Figure \(\PageIndex{10}\), we first write out all of the vector and then identify their \(x\) and \(y\) components. The force vectors are: \[\begin{aligned} \vec T &= T\hat x+0\hat y\\ \vec f_{k1}&=-f_{k1}\hat x+0\hat y\\ \vec F_{g1}&=m_1g(\sin\theta \hat x-\cos\theta \hat y)\\ \vec N_1&=0\hat x+N_1\hat y\end{aligned}\] We can now write out the \(x\) component of Newton’s Second Law: \[\begin{aligned} \sum F_x = T-f_{k1}-F_{g1}\sin\theta &= m_1 a\\ \therefore T-f_{k1}-F_{g1}\sin\theta &= m_1 a\end{aligned}\] where we note that the normal force has no component in the \(x\) direction. The \(y\) component of Newton’s Second Law for mass \(m_1\) is given by: \[\begin{aligned} \sum F_y = N_1-F_{g1}&=0\\ \therefore N_1-F_{g1}&=0\end{aligned}\] where we note that the forces of tension and friction have no \(y\) component. The two equations that we obtained above for \(x\) and \(y\) fully specify the motion of the \(m_1\) block if all quantities are known 3 .

A few notes on applying Newton’s Second Law:

• When applying Newton’s Second Law, analyze each mass in the problem separately. It does not matter that block \(m_1\) is connected by a rope to block \(m_2\) . Once you have determined all of the forces exerted on \(m_1\) , you can write Newton’s Second Law for \(m_1\) .
• Newton’s Second Law is a vector equation; this means that it is true for each (scalar) component of the vectors involved.
• You can choose the coordinate system, so choose one that makes it easy to write out the vector components. A good choice is to choose \(x\) to be parallel to the acceleration vector, so that you do not have to break the acceleration vector up into components. The choice of coordinate system is only made in order to allow you to write out the components of Newton’s Second Law based on the free-body diagram.
• Treat each mass separately (since Newton’s Second Law is only true for an individual mass). This means that each mass will have its own free-body diagram and that you can choose the coordinate system that is most convenient for a given free-body diagram. In particular, this means that you do not need to choose the same coordinate system for different masses in a problem.

The following example shows how to write Newton’s Second Law for a system of two blocks.

Example \(\PageIndex{5}\)

A block of mass \(m_1\) is placed on an incline that makes an angle of \(\theta\) with the horizontal. The block of mass \(m_1\) is connected by a massless string through a massless pulley to a second block of mass \(m_2\) , which rests on a horizontal surface. The blocks are accelerating in such a way that the block of mass \(m_1\) is accelerating down the incline, as shown in Figure \(\PageIndex{5}\). The coefficient of kinetic friction between either block and the surface it is resting on is \(\mu_k\) . Write Newton’s Second Law for both blocks.

First, we identify the forces on each mass (each block). On mass \(m_1\) , the forces are:

• \(\vec T_1\) , a force of tension from the string.
• \(\vec N_2\) , a normal force from the horizontal surface.
• \(\vec f_{k2}\) , a force of kinetic friction exerted by the horizontal surface. The force is in the opposite direction of the motion, and has a magnitude given by \(f_{k2}=\mu_kN_2\) .
• \(\vec T_2\) , a force of tension from the string. This force has the same magnitude as the tension force \(\vec T_1\) exerted on mass \(m_1\) , because the pulley is massless.

We can then proceed to draw the free-body diagram for each mass, and use that to write out Newton’s Second Law. For mass \(m_1\) , the free-body diagram is shown in Figure \(\PageIndex{12}\). We have chosen a coordinate system that has the \(x\) axis parallel to the acceleration of the block, and the \(y\) axis upwards and perpendicular to the \(x\) axis, as shown.

For \(m_1\) , we can write Newton’s Second Law, starting with the \(x\) components: \[\begin{aligned} \sum F_x = F_{g1}\sin\theta-f_{k1}-T_1&=m_1a_1\\ \therefore m_1 g\sin\theta -\mu_k N_1 - T_1 &= m_1 a_1\end{aligned}\] where, in the second line, we used the magnitude of the weight ( \(F_{g1}=m_1g\) ) and of the force of kinetic friction ( \(f_{k1}=\mu_kN_1\) ). For the \(y\) component of Newton’s Second Law, in which the acceleration has no component, we have: \[\begin{aligned} \sum F_y = N_1 - F_{g1}\cos\theta &= 0\\ \therefore N_1=m_1g\cos\theta\end{aligned}\] which shows us that the magnitude of the normal force can easily be expressed in terms of the weight ( \(F_{g1}=m_1g\) ) and the angle of the incline.

For \(m_2\) , we can proceed in much the same way, choosing a different coordinate system, since the acceleration vector for \(m_2\) points in a different direction (we don’t have to choose a different coordinate system, but we can if we find it makes things easier). The free-body diagram for \(m_2\) is shown in Figure \(\PageIndex{13}\) along with our choice of coordinate system.

We start by writing out the \(x\) component of Newton’s Second Law for \(m_2\) : \[\begin{aligned} \sum F_x = T_2 - f_{k2} &= m_2 a_2\\ \therefore T_2 - \mu_k N_2 = m_2 a_2\end{aligned}\] where again, we expressed the kinetic force of friction using the normal force and the coefficient of kinetic friction. The \(y\) component of Newton’s Second Law gives: \[\begin{aligned} \sum F_y = F_{g2}-N_2 &=0\\ \therefore N_2 = m_2g\end{aligned}\] where again, we expressed the weight in terms of the mass and \(g\) , and we find that the normal force has the same magnitude as the weight.

Now that we have written Newton’s Second Law for each mass , we can write all four equations that we obtained to describe the system of two masses . We should also note that the magnitude of the tension forces are the same for the two masses ( \(T_1=T_2=T\) ), and that since the masses are connected by a string, the magnitude of their acceleration vectors are the same ( \(a_1=a_2=a\) ). Using this, we can describe the full system with the following 4 equations: \[\begin{aligned} m_1 g\sin\theta -\mu_k N_1 - T &= m_1 a\\ N_1=m_1g\cos\theta\\ T - \mu_k N_2 = m_2 a\\ N_2 = m_2g\end{aligned}\] Of the variables above ( \(m_1\) , \(m_2\) , \(\mu_k\) , \(T\) , \(N_1\) , \(N_2\) , \(a\) ), one would only need to specify all but four of them to fully describe the motion of the system. For example, if one specifies the two masses and the coefficient of kinetic friction, all of the other variables can be determined.

3. Since we have two equations, we technically only need to specify all but two quantities to be able to fully model the motion of the block.

Newton’s Laws of Motion

This lecture briefly describe on Newton’s Laws of Motion. First Law: Law of Inertia. An object at rest (v=0) remains at rest AND an object at constant velocity (v=c) remains at constant velocity UNLESS acted upon by an unbalanced force. Second Law: force definition. Acceleration is produced when a unbalanced force acts on a mass. The greater the mass of the object being accelerated the greater the amount of force needed to accelerate the object. Third law: action/reaction. For every action, there is an equal and opposite reaction.

Spherical Mirror vs. Parabolic Mirror

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Describe the real-world examples of Newton's third law that were identified in "Applications of Newton's Laws." When gases escape downward out the tail of a rocket, they push upward on the rocket. When layers of the Earth collide, they force the Earth upward, forming mountains. You should always wear your seatbelt just in case the car comes to ...

A model rocket accelerates at 15.3 m/s2 with a force of 44 N. Calculate the mass of the rocket. Round your answer to the nearest tenth of a kg. The mass of the rocket is. 2.9 kg. A 2.9 kg model rocket accelerates at 15.3 m/s2 with a force of 44 N. Before launch, the model rocket was not moving. After the solid rocket engine ignited, hot gases ...

4. Push Harder. In the Push Harder — Newton's Second Law lesson, students build their own cars using craft materials and get hands-on exploring Newton's second law of motion and the equation "force equals mass times acceleration" (F=ma). Options for gathering real-time data include using a mobile phone and a sensor app or using a meter stick and a stopwatch.

Newton's first law: the law of inertia. When a basketball player shoots a jump shot, the ball always follows an arcing path. The ball follows this path because its motion obeys Isaac Newton's laws of motion. Newton's first law states that if a body is at rest or moving at a constant speed in a straight line, it will remain at rest or keep ...

Unit 1 One-dimensional motion. Unit 2 Forces and Newton's laws of motion. Unit 3 Two-dimensional motion. Unit 4 Uniform circular motion and gravitation. Unit 5 Work and energy. Unit 6 Linear momentum and collisions. Unit 7 Torque and angular momentum. Unit 8 Simple harmonic motion. Unit 9 Waves.

Physics library 19 units · 12 skills. Unit 1 One-dimensional motion. Unit 2 Two-dimensional motion. Unit 3 Forces and Newton's laws of motion. Unit 4 Centripetal force and gravitation. Unit 5 Work and energy. Unit 6 Impacts and linear momentum. Unit 7 Torque and angular momentum. Unit 8 Oscillations and mechanical waves.

As a tribute to Newton, the unit for measuring forces using these laws is called a Newton. NEWTON'S LAWS OF MOTION LESSON PLAN WORKSHEETS. The Newton's Laws of Motion lesson plan includes three worksheets: an activity worksheet, a practice worksheet, and a homework assignment.

Newton's second law is usually succinctly stated with the familiar equation. F = ma (1.1.1) (1.1.1) F = m a. where F F is net force, m m is mass, and a a is acceleration. You will notice that the force and the acceleration are in bold face. This means these are vector quantities, having both a magnitude and a direction.

Newton's second law of motion is used to calculate what happens in situations involving forces and motion, and it shows the mathematical relationship between force, mass, and acceleration. Mathematically, the second law is most often written as. F net = m a or Σ F = m a, 4.2. where Fnet (or ∑ F) is the net external force, m is the mass of ...

Newton's second law states that the force applied to a body produces a proportional acceleration; the relationship between the two is F = ma where F is the force applied, m is the mass of the body, and a is the body's acceleration. ... Newton's Second Law of Motion.. Theory . Procedure . Self Evaluation . Simulator . Assignment . Reference ...

It is almost always convenient to make one axis parallel to the direction of motion, if this is known. Generally, just write Newton's second law in components along the different directions. Then, you have the following equations: ∑Fx = max, ∑Fy = may. (6.2.1) (6.2.1) ∑ F x = m a x, ∑ F y = m a y.

In Part II of this experiment, the mass of the car angle of the track was intentionally manipulated. This was the independent variable. The dependent variable measured was the . 1. the 2nd choice. 2. the 1st choice. 3. the 2nd choice. 4. the 1st choice. Different measurements are expressed in different units.

Every assignment addresses one or two objectives. The objectives for the Newton's Laws of Motion module are listed below. Assignment 1: The student should understand the significance of Newton's law of inertia by identifying and refuting classic misconceptions concerning the causes of motion.

Blueprint Bash: Newton's 1st & 2nd Laws. Play this game for different demonstrations of Newton's first and second laws of motion. In this game, you will be presented with a series of questions about Newton's first and second laws of motion. You might need a pencil or a calculator handy!

The motion of a ball falling through the atmosphere or a model rocket being launched up into the atmosphere are both excellent examples of Newton's 1st law. Riding a bicycle is an excellent example of Newton's 2nd law. In this example, the bicycle is the mass.

n this experiment, you will use a track, a toy car, and some washers to explore Newton's first two laws of motion. You will make observations and collect data regarding the motion of these objects. ... Newton's Laws of Motion Assignment: Reflect on the Lab. 10 terms. eden141516. Preview. MOTO 101 Quiz 1. 16 terms. benlandryben45. Preview. Math ...

Figure 5.5.12: Free-body diagram for m1. For m1, we can write Newton's Second Law, starting with the x components: ∑Fx = Fg1sinθ − fk1 − T1 = m1a1 ∴ m1gsinθ − μkN1 − T1 = m1a1 where, in the second line, we used the magnitude of the weight ( Fg1 = m1g) and of the force of kinetic friction ( fk1 = μkN1 ).

Assignment Instructions for Students. Design an experiment to test Newton's Second Law of Motion, ΣF = ma, using the PhET Forces and Motion Simulation. Identify your independent, dependent, and ...

First Law: Law of Inertia. An object at rest (v=0) remains at rest AND an object at constant velocity (v=c) remains at constant velocity UNLESS acted upon by an unbalanced force. Second Law: force definition. Acceleration is produced when a unbalanced force acts on a mass. The greater the mass of the object being accelerated the greater the ...

Calculate the average travel time for each distance, and then use the results to calculate. The average time that it takes for the car to travel the first 0.25m is s. The average time to travel just between 0.25m and 0.50m is s. Given the time taken to travel the second 0.25 m section, the velocity would be m/s. 2.33.

The purpose of the lab was to e xplore Newton's first two. laws of motion using a lab oratory procedure. When we run. the car on the track, we n eed an external force to run the. car and we again need an external f orce to stop that car, this verifies the law of in ertia that the toy car does not want. to change its mode and we wi ll also ...

10. 0.0147. 0.147. Consider the relationship of the variables in Newton's second law. In a drag car race, the force applied to the car is doubled by the driver stepping on the gas pedal. double. remain unchanged. increase. Assignment: Reflect on the Lab Learn with flashcards, games, and more — for free.

Newton's motion law s are a set of scientific statements aimed at explaining the physical property of movement. These laws explain why objects in movement tend to maintain the same velocity for a short period of time. In conclusion, Newton's motion laws state that if an object is at rest or in movement, it will tend to maintain its basal state.

antila yacht

About company

Antila Yachts is a private shipyard (yacht producer) located in Poland. We are a family company, established and created from our passion to sailing as well as our 30-year business experience in a private sector. During this time we have managed to gather (complete) a 50-persons professional team, whose experience has resulted in the best quality of our products and has become the source of the Company success. Antila yachts are appreciated in all European countries. The quality of our yachts has been recognized at various trade fairs. Our cooperation with the best designers and leading suppliers of the equipment, technological improvements, aiming at perfection as well as our efforts to meet customers’ expectations are the basic qualities of our Company.

Boats models

• Antila 24.4
• Antila 26CC

Antila 22 has a very modern design line, which resembles its elder sister Antila 24.4.

Its users comfort was the main aim to be achieved during the designing process. There is a comfortable double bunk (berth) in the bow part (zone), and the bunk under the cockpit is not smaller than in Antila 24 yacht. We also provide a functional and original kambuz with a double-burner cooker and a table top combined with a sink. On the opposite side – a sanitary cabin. In the midship area there are two sofa-beds. We wish to emphasize that the height in the mess room is 1,78m. Antila 22 is the only boat, which having the length of 22 feet, offers a full standing position for the crew members inside it. Outside there is a two-meter long cockpit with open stern where 6 to 8 persons can have a comfortable seat. The cockpit guarantees enjoying the evenings also with guests from other boats. The yacht will be equipped with a steel sliding keel and an engine fixed on a pantograph.

Our constructor Jacek Daszkiewicz has applied an innovative shape of the hull bottom to make the yacht fast. We also assume very efficient (high) initial and final stability to ensure safety of sailing.

TECHNICAL DATA

PREMIERE 2017

The world premiere of Antila 24.4 took place at sailing fairs in Düsseldorf held from 21.01.2017 till 29.01.2017. Antila 24.4 is an interesting offer mainly for private shipowners – due to its easy one-person operation servicing. Nevertheless, thanks to its spacious interior, it is also appreciated by charter companies. The interior design is not much different from that of Antila 26. There is enough space for 6 full-size bunks, a kambuz and a toilet. The charter version can have additional folding bunks. The deck has been built with a focus on safe and comfortable sailing. All ropes (lines) for sails handling have been connected to the cockpit. The yacht is equipped with full stabilization of a mast together with a gate to lay it down, a rotational keel and a rudder blade vertically lifted (hoisted). A spacious cockpit and a relatively low superstructure ensure excellent sight distance while sailing. Antila 24.4 has received a reward for the best product in its class granted by the Polish Chamber of Marine and Water Sports. In a competition Land Rover Polish Yachts organized by the monthly magazine „Sails and Land Rover” it obtained the title of the Yacht of 2018.

The new product launched in 2012 by the Antila Shipyard from Radom was the sailing yacht 26CC – a gold medal winner at the Boatshow fairs 2012 in Łódź. This yacht was also granted the (First Prize) Main Reward in the category of Charter Yacht 2012 at the Mazovian Fairs of Water Sports in Giżycko.

The boat, whose style is fairly similar to that of Antila 27, has been designed by the construction team of Adam & Michał Orych. The new design of Antila 26CC is classical and futuristic at the same time. The boat looks marvelous from each side, particularly when you look at its shape with the chine of a hull and a water-line. This yacht, as any other Antila models, focus on safety as well as high comfort provided both in a cockpit and in a mess room.

Ergonomic, spacious and very carefully planned cockpit guarantees comfort during sailing and also during mooring. Wide half decks enable freedom of moving around the deck. Slender rigging with large area (surface) of the sails as well as modern shape of the hull guarantee very good nautical parameters. The innovations applied in the mesa room allowed for dividing the interior of the boat into a kambuz, a separate toilet compartment and two independent lockable cabins with double bunks (berths). Already at a first glance the yacht makes an impression of being a symbol of comfort. Antila 26CC is a product which was created with application (usage) of the best available materials – the luxury and stylish interior, comfortable seats, well constructed mattresses with perfectly made stitching, the best quality materials with alcantry upholstery and its elements in different colours. Application of LED type lighting makes the interior well-lighted at minimal energy consumption. The floor and the cockpit boarded with Teak (Tectona grandis) wood imported from Myanmar (Burma), India and Laos add to the complete feeling of luxury and comfort. We are proud of having created a yacht which satisfies even the most demanding tastes of sailors. Our yacht is manouevrable (good-turning), fast and safe both for private shipowners and for charter companies. Antila 26CC makes it possible to taste the world.

Antila 27 designed by the recognized European designers Michał and Adam Orych is a yacht whose idea has been based on a long-term experience of our designing team. It is a modern boat which follows the latest world trends. Attractive, dynamic body of the yacht is combined with ergonomic shaping of the deck and carefully elaborated details, which reflect discreet sport type elegance and sport characteristics.

The yacht is dedicated to both charter companies and private shipowners whose special requirements have been fulfilled by optimization of production with application (usage) of the latest available materials and technological solutions. Exceptionally easy operating and servicing of the boat is an effect of using sophisticated solutions and possibility of adding more options which would increase the boat’s standards. The interior of the yacht – 1,86m high – is large and arranged in such a way that it enables even up to 10 people to stay together in the mess room. The improved transverse stability allows for increasing the sails area (surface) and sailing speed even at lighter breeze, giving also the feeling of comfort and safety in more difficult conditions. The shape of the hull has been designed to enable reaching high speeds as well as good manoeuvrability (turning) and ease of steering – all of this providing real joy of sailing. Antila 27 is also produced in a full sea version for those who like to be particularly challenged.

Antila 33 is a continuation of the successful lines of Antila 27 and Antila 26CC which are appreciated both in Poland and at foreign markets. Modern and dynamic outline with a hull length of 10,5m and the characteristic chine of the hull make this yacht to be clearly distinguished from other vessels. Spacious and ergonomic cockpit with a fixed table and a separated steersman’s station (stand) with two steering wheels, together with easy sails handling make sailing by this yacht pleasant and comfortable for its captain and his crew. Asymmetrical companion way allows for easier rigging operating and much better interior arrangement. Three lockable cabins, each with a vestibule and a fairly large wardrobe, plus full-size bunks in the mess room allow for comfortable sailing even for a quite numerous crew. Enlarged kambuz, a toilet with a shower and non-collision communication in the yacht’s interior, also in the centerboard version – are the additional advantages that were possible to be achieved by using the asymmetrical companion way. Taking the best possible advantage of the yacht’s width and its relatively high ballast coefficient (ratio) enabled for providing very good transverse stability which in relation to the slender rigging, large area (surface) of the sails and optimum hull guarantee very good nautical parameters. Antila 33 is a proposal for those sailors who appreciate luxury and modernity on inland and sea waters.  

Antila Yachts to prywatna stocznia jachtowa w Polsce. Jesteśmy firmą rodzinną, stworzoną z pasji do żeglarstwa oraz 30 letniego doświadczenia biznesowego w sektorze prywatnym. Przez ten okres stworzyliśmy profesjonalny 50 osobowy zespół, którego doświadczenie przekłada się na jakość naszych produktów i jest źródłem sukcesu firmy. Jachty Antila cieszą się uznaniem w całej Europie i w odległych zakątkach świata.

Potwierdzeniem najwyższej jakości są liczne nagrody i wyróżnienia przyznawane naszym jachtom na targach branżowych.  Współpraca z najlepszymi projektantami w Europie i wiodącymi dostawcami wyposażenia, udoskonalanie technologii, dążenie do perfekcji i nastawienie na spełnianie oczekiwań klientów jest podstawową dewizą naszej firmy.

Antila 28.2

• Antila 30 .1
• Antila 33.3

Światowa premiera Antili 24.4 miała miejsce na targach żeglarskich w Dusseldorfie w 2017 roku. Antila 24.4 jest niezwykle ciekawą propozycją głównie dla armatorów prywatnych z uwagi na łatwą, jednoosobową obsługę, nie mniej jednak ze względu na walory przestrzenne wnętrza jednostka cieszy się również zainteresowaniem firm czarterowych. Rozplanowanie wnętrza nieodbiega znacznie od Antili 26CC. W Antili 24.4 znajduje się przestrzeń na 6 pełnowymiarowych koi, kambuz i toaletę. Wersja czarterowa przewiduje dodatkowe rozkładane koje.

Pokład zbudowano z myślą o bezpiecznej i komfortowej żegludze. Wszystkie liny do obsługi żagli sprowadzone są do kokpitu. Jacht jest wyposażony w pełną stabilizację masztu wraz z bramą do jego kładzenia, miecz obrotowy i podnoszoną do pionu płetwę sterową. Obszerny kokpit i stosunkowo niska nadbudówka zapewnia doskonałą widoczność w trakcie żeglugi.

Premiera Polska odbyła się się na targach w Warszawie w marcu 2017, gdzie Antila 24.4 zdobyła nagrodę za najlepszy wyrób w swojej klasie Polskiej Izby Przemysłu Jachtowego. W plebiscycie miesięcznika Żagle i Land Rover zdobyła tytuł Jacht Roku 2018.

DANE TECHNICZNE

Antila 26CC to premiera roku 2012. Złoty Medalista Targów Boatshow 2012 w Łodzi oraz zdobywca Nagrody Głównej w kategorii "Jacht Czarterowy Roku 2012" na Mazurskich Targach Sportów Wodnych w Giżycku.

Łódź zaprojektowana przez team konstrukcyjny Adam & Michał Orych, nawiązująca swoją stylistyką do Antili 27.

Nowy design Antili 26CC klasyczny i zarazem futurystyczny to zwrócenie uwagi i podkreślenie poszczególnych detali jednostki. Antila 26CC z każdej strony wygląda olśniewająco, szczególnie zachwyca kształt burty z załamaniem kadłuba i linią wody. W jachcie tym, jak w każdym modelu Antila, najważniejsze jest bezpieczeństwo i bardzo wysoki komfort zarówno w kokpicie jak i w mesie. Ergonomiczny, obszerny i dopracowany w najdrobniejszych szczegółach kokpit gwarantuje wygodę podczas żeglowania i postoju. Szerokie półpokłady zapewniają swobodę poruszania się po pokładzie. Smukły takielunek z dużą powierzchnią żagli oraz nowoczesne szerokie kształty kadłuba gwarantują bardzo dobre parametry nautyczne. Nowatorsko rozwiązana mesa pozwoliła podzielić wnętrze łodzi na kambuz, osobny przedział toalety i dwie zamykane kabiny z dwuosobowymi kojami. Jacht jest symbolem komfortu, który już na pierwszy rzut oka określa jego charakter. Antila 26CC jest idealnym przykładem wykorzystania najlepszych materiałów. Wyraźna stylistyka luksusu wnętrza. wygodne siedziska, wspaniale wyprofilowane materace, perfekcyjnie wykonane szycie. Najwyższej klasy materiały z tapicerką alcantry i jej elementami w różnych kolorach. Zastosowanie oświetlenia typu LED gwarantuje doskonałe oświetlenie wnętrza przy minimalnym użyciu energii. Dopełnienie luksusu i komfortu jest podłoga i kokpit wyłożona drewnem Teak ( Tectona grandis ) sprowadzanym z Birmy, Indii i Laosu.

Jesteśmy dumni z tego, że stworzyliśmy jacht spełniający oczekiwania żeglarzy nawet o najbardziej wysmakowanych gustach. Jacht zwrotny, szybki i bezpieczny zarówno dla armatorów prywatnych jak i firm czarterowych. Z Antilą 26CC wszystko jest możliwe, a świat nabiera smaku.

Antila 28.2 zaprojektowana przez uznanego europejskiego projektanta Michała Orycha. To jacht oparty na wieloletnim doświadczeniu w dziedzinie projektowania - nowoczesny, podążający za światowymi trendami. Atrakcyjna, dynamiczna sylwetka jachtu połączona z ergonomicznym ukształtowaniem pokładu oraz dopracowanymi detalami jest odzwierciedleniem dyskretnej elegancji i sportowej charakterystyki .

Jacht jest dedykowany zarówno firmom czarterowym jak i armatorom prywatnym. Wysokie wymagania zostały spełnione dzięki optymalizacji produkcji z zastosowaniem najnowszych materiałów i rozwiązań technologicznych. Niezwykle łatwa obsługa to efekt zastosowaniu wyrafinowanych rozwiązań i możliwości zastosowania dodatkowych opcji podnoszących standard jachtu. Wnętrze jachtu z wysokością 1,86 m  jest obszerne i zaaranżowane tak aby zapewnić prywatność i komfort załodze w trzech zamykanych kabinach i możliwość wspólnego przebywania w mesie dla nawet dziesięciu osobom.

Podwyższona stateczność poprzeczna pozwala na zwiększenie powierzchni ożaglowania i prędkości przy słabszych wiatrach dając również poczucie komfortu i bezpieczeństwa w trudniejszych warunkach. Kształt kadłuba został zaprojektowany w sposób umożliwiający osiągnięcie wysokich prędkości oraz manewrowości i lekkości prowadzenia dające prawdziwą radość z żeglugi . Masa transportowa do 400 kg.

Antila A30 to niezwykle komfortowy jacht, którego premiera odbyła się na Targach w Łodzi w 2019 roku. Przeznaczony jest dla osób lubiących sportowe żeglowanie oraz ceniących komfort i nowoczesność. Jacht posiada świetne właściwości nautyczne, co w połączeniu z komfortem żeglowania spełnia najbardziej wysublimowane oczekiwania. Prawdopodobnie jest najszybszym jachtem w swojej klasie, oferując niespotykany komfort wnętrza i kokpitu. Antila 30 zadowoli najbardziej wymagających żeglarzy. Jacht dostępny jest zarówno w wersji kilowej jak i mieczowej. Możliwe jest zastosowanie różnych rozwiązań układu sterowego i napędowego. W wersji mieczowej lub kilowej  Antila 30 jest wyposażona w obrotowy ster głębinowy z kołem sterowym. Układ napędowy stanowi sinik stacjonarny Yanmar 14 KM lub 21 KM  (linia wału). Dla usprawnienia manewrów portowych polecamy ster strumieniowy. Jacht dostępny jest zarówno w wersji balastowej jak i mieczowej. Przestrzenne wnętrze, z dużą wysokością 1,91m gwarantuje komfortowe, niemal hotelowe warunki. Pokład przystosowany został do zamontowania dodatkowych elementów wyposażenia, takich jak: fok samohalusujący, szyny do żagla Genau, czy roller do Genakera lub Code „0” usprawniających komfort użytkowania na różnych akwenach. Przestronny i ergonomiczny kokpit ze stałym stołem oraz wydzielone stanowisko sternika z kołem sterowym oraz możliwością łatwej obsługi żagli sprawiają że żeglowanie jest równie przyjemne i komfortowe dla kapitana jak i 8 osobowej załogi. Maksymalne wykorzystanie szerokości jachtu i wysoki współczynnik balastowy zapewniają bardzo dobra stateczność poprzeczna, która w połączeniu ze smukłym takielunkiem, dużą powierzchnią żagli 49m2 oraz zoptymalizowanym kadłubem gwarantuje bardzo dobre parametry nautyczne. Antila 30 to propozycja dla żeglarzy, którzy cenią sobie luksus i nowoczesność na wodach śródlądowych i morskich.

Antila 33.3 to jacht w kategorii luksusowych jachtów żaglowych. Jest to nowsza i ulepszona wersja modelu A33. Konstrukcja pod kątem nautycznym spełni oczekiwania nawet najbardziej wymagających żeglarzy. Część mieszkalna zapewnia  komfortowe warunki nocowania nawet dla dziesięcioosobowej załogi. Dzięki precyzyjnemu ożaglowaniu, manewry jachtem Antila 33.3 to czysta przyjemność, a w portach dziobowy ster strumieniowy ułatwia manewrowanie. Podstawowymi elementami jachtu Antila 33.3 są: stabilizowany maszt z bramką ułatwiającą jego kładzenie, żagle: grot pełnolistwowy oraz fok, Lazyjack, silnik Yanmar 21 KM, miecz obrotowy, bardzo wydajny dziobowy ster strumieniowy Vetus, dwa koła sterowe obszyte skórą, płetwa sterowa głębinowa.

Antila 33.3 Najważniejsze zmiany , które zostały dokonane w nowszym modelu:

• Zwiększona powierzchnia żagli, oraz zmiana środka ożaglowania. Grot 28,1m2  oraz Fok samochalsujacy 18,5m2 a powiększony Fok nawet  23,1m2.
• Jacht posiada wkładkę denną. co w sposób najbardziej efektywny pozwala rozprowadzić wszelkie instalacje jachtowe: (elektryka, hydraulika, ogrzewanie i klimatyzacja).
• Rozłożenie balastu na jachcie jest projektowane komputerowo, co pozwala idealnie wyważyć jednostkę. Zwiększony został trap jednostki.
• Rozwiązanie kingstonu, które znane jest z naszych Antil 33, zostało teraz wprowadzone do seryjnej produkcji.
• Część mieszkalna jest wygodna, przestronna i oświetlona światłem LED. Na burtach i suficie znajdują się dodatkowe okienka, dzięki którym część mieszkalna posiada doskonały dostęp do naturalnego oświetlenia. Wewnątrz znajdują się trzy dwuosobowe kabiny, jedna na dziobie i dwie na rufie. Dodatkowo w mesie znajdują się dwie rozkładane koje boczne, każda przeznaczona dla dwóch osób. Pod każdą koją znajduje się schowek zdolny pomieścić znaczną część bagażu, na burtach dodatkowo rozlokowane są półki, tzw. jaskółki. Ogrzewanie na jachcie zapewnia bardzo wydajne Webasto z elektronicznym sterownikiem.
• Łazienka wyposażona została w instalację wody pitnej z pompą elektryczną i ciepłą wodę z Bojlera, umywalka z szafką, prysznic i elektryczna toaleta morska ze zbiornikiem fekalnym.
• Kambuz wyposażony jest w instalację gazową i kuchenkę firmy Dometic z dwoma palnikami; instalację wody pitnej, zlewozmywak, ciepłą wodę. Poza standardowym wyposażeniem do dyspozycji jest duża (72l) lodówka z zamrażalnikiem.
• Każda kabina wyposażona jest w gniazdka USB i  12V i 230V.

AKTUALNOŚCI

Practical boat owner.

• Digital edition

Antila 33.3 review: The ideal lakeland explorer

• Alison Wood
• July 11, 2023

This Polish swing-keel boat with clever folding mast system is perfect for exploring the vast Masurian lakes

Lake sailing in Poland is very different to coastal sailing. In many ways it’s more relaxing. There are no tides to contend with and because you can find a marina or pontoon wherever you are, there’s no requirement to plan a day’s sailing. You can simply go where the wind takes you. When you’ve had enough, just beach-up or anchor in a creek.

Anchored in a creek in Masuria

But you need your wits about you too. Sailors have to be tuned-in to sudden wind shifts and lulls, blasts between islands that fizzle into nothing, or vice versa. Some lakes are so big you can barely see the shore, connected by canals so shallow it’s easy to run aground. Masts, keels and rudders go up and down all day – and this is where boat design gets clever. Self-charter is possible, but it certainly helps to have a local skipper… and a forgiving boat. 

Dziewiata Lady M – our Antila 33.3 charter boat: Patrycja Tomala Photography

For our adventure with Undiscovered Sailing , our hosts Wojtek and Patrycja Tomala chose an Antila 33.3. Along with the Maxus, this is one of the most popular charter yachts on the lakes.

The Maxus is another popular charter boat on the Polish Lakes. Photo: Ali Wood

Antila Yachts is a Polish family-run business, producing boats from 24 to 33ft. One of the largest yachts you’ll see in the region, the Antila 33.3 has many features that make lake sailing easier. Whilst our boat Dziewiata [the 9th] Lady M didn’t come with a radio or electronics – nor even a wind indicator or compass, it did have a bow-thruster, diesel heating and a very nifty folding mast system.

The mast can go up or down in 10 minutes. Photo: Ali Wood

The latter is essential, because the 180 miles of waterways – stretching from the lower Vistula to the Russian border (Kaliningrad) – are connected by canals and rivers with low bridges. We raised and lowered our mast at least twice a day, and it was a simple task thanks to the clever pulley system, aided by an electric winch. 

Usually the Antila 33.3 comes with a fully battened mainsail (28.1m2) and self-tacking jib (18.5m2). However, skipper Wojtek requested a larger (23m2), genoa for our trip knowing that we were keen sailors. A gennaker/ code zero is also an option. 

Twin helms and a beautiful sunset! Photo: Ali Wood

During our five-day charter we only covered a quarter of the vast lake district. Wojtek chose the northern end of the lakes for us, which was quieter (we saw just a handful of boats) with more challenging sailing due to the many islands and narrow waterways.

Buoyage was limited, and there were protected nature reserves where engines were forbidden. Under full sail Dziewiata Lady M pointed high, sailed fast and was smooth and well balanced. Even with the larger foresail she was easy to tack and gybe.

With no instruments, we sailed by line-of-sight and trimmed the sails accordingly. Or, if we just felt like a blast, we sailed around the cormorant-inhabited islands, getting as close as we dared until Wojtek told us to tack. I especially loved the twin helms, enabling us to switch to the high side for better visibility. 

Mast lowering

To get from one lake to another, or to visit one of the many charming Masurian towns, we had to negotiate road bridges. The first job was to lower the boom to the deck by releasing the lazyjacks.

Next, one of us would go to the bow to remove the forestay pin and lift the A-frame whilst the other released the mast purchase line in the cockpit. This needed to be done smoothly and at a consistent pace, keeping two turns on the winch. The lowered mast then rested on a frame at the stern. The process took no more than 10 minutes. 

Once under the bridge, we’d do the same in reverse, taking care to check no lines had got caught under the mast step as it reconnected with the deck. Wojtek continually looked in front and behind. Electric winches are great, he told us, but you need to be careful to avoid snagging as it’s too easy to damage the rig. Indeed, on the day of our arrival we saw a sorry looking ‘banana mast’ in the boatyard waiting for repair (or scrap). 

The boom is detached and lowered to the deck. Photo: Ali Wood

When we passed a yacht raising the mast manually, I was grateful for our electric winch. A crew on the coachroof was vigorously sweating the line to help the winchman in the cockpit. It looked like hard work!

On entering the canals we turned on the engine and lifted the rudder (which can draw as little as 45cm) and keel (which reduces draft from 1.85m to 0.6m). Once raised, the keel swings into a casing that forms part of the saloon table. If you hit an underwater object, the rudder and/or keel will kick-up automatically to prevent damage. This happened whilst I was helming on the canal to Wegorzewo. I moved to the side of the canal to let a vessel past and the rudder must have caught the bank. 

We lifted the rudder as we nosed into a creek. Photo: Ali Wood

Antilla also makes a seagoing version of the Antila 33.3, which is CE category B as opposed to C, and has a fixed keel among other modifications. 

Skippers typically moor stern-to in Poland, and fix the bow to a trot mooring retrieved with a boat hook. This is where the Vetus bow-thruster comes in handy. Dziewiata Lady M could easily ‘stand still’ whilst we grabbed the line, or waited for a boat to pass in tight quarters. With an open side, stern and bathing platform, the Antila 33.3 is an easy boat to access from the shore or (if the weather’s nice) the water after a dip.

Accommodation 

Whilst in the Med or Caribbean you might typically charter a 38ft to 46ft yacht, we had plenty of space for the four of us on our 33-footer. Laura and I both had a double cabin at the stern and Wojtek and Patrycja shared a large, double-door cabin at the bow.

There’s room for two in each of the aft cabins

It would be tighter with six people (two in the saloon), but still comfortable with plenty of room for luggage in the lockers. Antila claims the boat can sleep up to 10 people with a maximum payload of 910kg. However, Undiscovered Sailing sensibly caps it at six. 

The interior of the Antila 33.3 is light and spacious. Photo: Ali Wood

The saloon was spacious with a large table where we spent lively evenings drinking Polish cider and playing Skip-bo. Because of the pale wood finish, 1.95m ceiling and many windows, the boat let in lots of natural light and we didn’t turn on the LED spotlights until late.

Aside from a canal boat holiday I did last Autumn, this was the first time I’ve enjoyed central heating on a charter. Though the weather was mostly pleasant, we had a few rainy days and cool evenings. The diesel-fuelled Webasto heating was a very welcome addition.

Wojtek and Patrycja Tomala of Undiscovered Sailing

I was surprised by how little we used the Yanmar 21 HP engine to charge the batteries. We did top-up using shore-power in the marinas, but happily spent a night at anchor in a creek, and a full day either side, whilst still having plenty of power for lights, heating, fridge, bow-thruster, electric winch and head. 

Not having to power up instruments helped, and for me, this was a big plus-point of chartering in the Polish lakes. It felt like a luxury version of dinghy or day-sailing in a giant harbour. We were surrounded by forest and reed-fringed islands. We rarely knew what time it was and had the freedom to sail where we wanted, and enjoy the scenery and wildlife without double-checking instruments or trying to push the boat for extra knots.

Much as I enjoyed our blustery sails, one of my favourite moments was actually being becalmed. In the busy Solent I’d have no doubt put the engine on, but in Masuria, we simply drifted in silence, feeling the warmth of the sun as it beat through the clouds and listening to a pair of cuckoos call out across the water. When you don’t know how fast you’re going and your destination isn’t important, you stop caring and learn to enjoy the moment, and Dziewiata Lady M is certainly the boat for day-dreaming and relaxation. 

Antila 33.3 spec

LOA: 10.3m 

Width: 3.2m

Draft (centreboard up/ down): 1.85m to 0.6m

Draft (rudder up/ down): 0.45m/ 1.8m

Sail area (jib and mainsail): 51m2

Gennaker/ code zero: 65m2

Transport weight: 4,750kg

Berths: 6+4

CE category: C (cat B also available)

Cost: €60k  (plus €30-65k for cat B)

Contact: www.antila-yachts.pl

Antila Yachts

www.antila-yachts.pl

• ul. Przemysłowa 8, 26-600 Radom

Antila Yachts - known Polish producer of sailing yachts from 7 to 10 meters. The whole range is produced at Antila Yachts the production capacity of the company in Poland and in the Republic of Belarus.

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• Michal & Adam Orych

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Antila 26cc.

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Antila Yacht is a reputable yacht shipyard specialising in the production of the sailboats of polyester glass laminate. Our yachts are designed and built by the team of experienced and well-qualified Polish boatbuilders.

Such approach allow us to create an individual configuration of the yacht together with the client, which would meet the expectations of the future owners.

In order to guarantee the exchange of experience between our company and the customers, we participate in international leading boat shows and exhibitions.

Last year we were honoured with numerous awards, including:

- "Zwycięzca w kat. Jachty żaglowe do 7,5 m - Warszawa 2018

- "Złoty medal w kat. Jachty Żaglowe" - Boatshow 2017

- "Gwóźdź targów Wiatr i Woda" - Warszawa 2017

- "Nagroda za wyrób Wiatr i Woda" - Warszawa 2017

- "Gwóźdź targów Wiatr i Woda' - Katowice 2017

26-600 Radom ul. Przemysłowa 8

tel.:(+48 48)3633039;  602634835

e-mail: [email protected]

Yacht charter Antila 26 cc – Alegrija

About the yacht antila 26 cc.

Antila 26 cc is the perfect combination of functionality and eye-catching design

In this yacht, as in every Antila model, the most important thing is security and very high comfort both in the cockpit and in the mess. The ergonomic, spacious and refined cockpit guarantees comfort while sailing and when stationary. Wide half-decks ensure freedom of movement around the deck.

Good nautical parameters have been ensured by the use of slender rigging combined with a large area of sails and modern hull shapes.

The innovative solution of the mess allowed to divide the interior of the boat into a galley, a separate toilet compartment and a toilet two lockable cabins with double berths.

Yacht technical data Antila 26cc

Yacht equipment alegrija.

• Heating - Webasto Eberspacher
• Electric refrigerator
• Large fold-out table
• Water instalation
• Pots, pans, plates, glasses, cutlery, etc.
• 12V electrical installation
• Capacious 150 Ah battery
• 12V and 230V sockets
• LED interior lighting
• LED color lighting
• Charging the battery from the engine
• Seal roller
• Grotto on creepers
• Gate for laying the mast
• Stern baskets with seats
• Railing posts with double railing
• Bathing ladder at the stern
• Oars, barefoot
• Moorings and fenders
• Gas cylinder 2/3 kg
• Power cord 230V - 15m
• Two anchors
• Two double lockable cabins
• Wide double berth in the bow cabin
• Fold-out sleeping in the mess on the port side
• WC cubicle on the right
• Caboose on the left
• Navigation lighting
• Life jackets
• First aid kit
• Fire extinguisher

Entertainment

• Loudspeakers in the mess
• Casco insurance
• Yacht Casco
• Personal accident insurance

Charter price list 2024

Except for long weekends, rent only for full weeks from Saturday to Saturday

Online booking

Select the dates on the calendar to check the price and book the yacht.

Good to know

When booking, 30% of the charter value must be paid, the remaining amount is payable 30 days before the start of the cruise.

We invite you to pick up the yacht on the day of the cruise between 15:00-19:00, and on the day of the end it should be returned by 10:00. 11:00.

Minimum na jeden dzień przed odbiorem jachtu należy wpłacić kaucję gwarancyjną w wysokości 2500 zł na rachunek bankowy numer 79 1870 1045 2078 1073 6021 0003

Photo gallery

MINŐSÉG

Túravitorlások prémium megoldásokkal

Letisztult, modern fomák

Sportos menettulajdonságok

Mi megvalósítjuk álmait!

Az Antila Yachts hajógyár egy modern, 35 éves hajógyártói tapasztalattal rendelkező, professzionális vállalkozás, ahol egy 50 fős csapat, a 24 – 34 láb közötti méretkategóriában készíti középkategóriás túravitorlásait.

A gyár sportos tulajdonságokkal rendelkező tengeri és tavi túravitorlásai nagy népszerűségnek örvendenek Európa-szerte és 2018-tól, képviseletünkön keresztül megérkeztek Magyarországra is.

Termékpalettánk - a legújabb tervezési irányelvek alapján - az elmúlt 7 évben teljesen újjászületett.

Modern, skandináv dizájnt követő konstrukcióink főtervezője a Svédországban alkotó, lengyel származású Michal Orych.

Minden hajónk koncepcióját a fedélzeti, illetve a nappali közös terek méretének a maximalizálásában – méretkategóriájának legtágasabb kokpitját és legnagyobb beltéri állómagasságát találja hajóinkon - illetve a teljesen egykezes használatban - önváltó fokvitorla, kormányhoz vezetett kötélzet, hidraulikus kormány - fogalmaztuk meg.

A gyártmányaink innovációjának és minőségének visszaigazolásaként az elmúlt években Európa szerte számos rangos díjat nyertünk, illetve rendszeres szereplői vagyunk a legnépszerűbb vitorlázással foglalkozó nyomtatott és online sajtónak is (Magyarországon a Vitorlázás Magazin és Aqua Magazin).

De ami talán még fontosabb, az a vásárlóinktól elnyert bizalom és elégedettség. Erre talán a leghitelesebb bizonyíték, hogy a magyarországi indulástól eltelt 4 év alatt egy teljesen ismeretlen márkából egy széles körben ismert és elismert brandet sikerült közösen felépítenünk. Büszkén hirdethetjük, hogy mára a TOP 5 hazai vezető márka egyikét úgy hívják, hogy Antila Yachts.  

Hajóink felszerelését és berendezéseit vezető európai beszállítókkal való együttműködésben, míg az összeszerelést a gyártástechnológia folyamatos fejlesztésének igénye mellett, az ügyfeleink kívánságainak maximális figyelembevételével, azaz az Ön igényeire szabva - akár egyedi kialakításban is - végezzük.

A 3 éves szavatossággal kínált hajóink nem csak kitűnő, de kimagasló ár-érték arányuk miatt, kifejezetten racionális választások a Balatonra.

Fontos információ, hogy nagy tapasztalattal rendelkező csapatunk - a főkonstruktőrrel szorosan együttműködve - az összes modellünket a balatoni viszonyokat legmesszebbmenőkig figyelembe véve úgy terveztette át, hogy mikor a kiválasztott hajó megérkezik, az se a vitorlázatában, se a hajó felszereltségében ne tartalmazzon felesleges berendezéseket, de kompromisszumokat sem.                                                                                                                                                                                       

A Magyarországra érkező hajóinkat nem általános tengeri használatra, hanem kifejezetten balatoni körülményekre konfiguráljuk.

Minden vitorlás jachtunk már alapfelszereltségükben számos - más gyártónál csak felárért, kizárólag az opciós listáról kérhető - minőségi beépített termékkel van felszerelve, de a valódi extrákért is kifejezetten barátságos kondíciókat számolunk.   

A kisebb túravitorlásainkat alapvetően kényelmes, de egyben sportos belépő hajókként ajánlanánk, míg a kiváló ár/érték aránnyal rendelkező és gazdagon felszerelt 30 és 34 lábas egységeink racionális választások lehetnek családi használatra, vagy charter hajónak is.

Korrekt ügyintézés, minőség, versenyképes ár.

Antila Yachts Magyarország Kft

Új hajó értékesítés

új vitorlás eladó, antila yachts magyarország, antila yachts, antila 26cc, antila 24.4, antila ára, antila eladó, eladó vitorlás, lengyel vitorlás, eladó lengyel vitorlás, eladó yacht, eladó lengyel yacht, tőkesúlyos, magyarországi képviselet, magyarországi iroda.

Minőségi kézműves munka:

Modelljeink.

+36 30 905 7973

[email protected]

Bemutató hajónk

Balatonfüredi Yacht Club

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40 facts about elektrostal.

Written by Lanette Mayes

Modified & Updated: 02 Mar 2024

Reviewed by Jessica Corbett

Elektrostal is a vibrant city located in the Moscow Oblast region of Russia. With a rich history, stunning architecture, and a thriving community, Elektrostal is a city that has much to offer. Whether you are a history buff, nature enthusiast, or simply curious about different cultures, Elektrostal is sure to captivate you.

This article will provide you with 40 fascinating facts about Elektrostal, giving you a better understanding of why this city is worth exploring. From its origins as an industrial hub to its modern-day charm, we will delve into the various aspects that make Elektrostal a unique and must-visit destination.

So, join us as we uncover the hidden treasures of Elektrostal and discover what makes this city a true gem in the heart of Russia.

Key Takeaways:

• Elektrostal, known as the “Motor City of Russia,” is a vibrant and growing city with a rich industrial history, offering diverse cultural experiences and a strong commitment to environmental sustainability.
• With its convenient location near Moscow, Elektrostal provides a picturesque landscape, vibrant nightlife, and a range of recreational activities, making it an ideal destination for residents and visitors alike.

Known as the “Motor City of Russia.”

Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname “Motor City” due to its significant involvement in the automotive industry.

Home to the Elektrostal Metallurgical Plant.

Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

Boasts a rich industrial heritage.

Elektrostal has a long history of industrial development, contributing to the growth and progress of the region.

Founded in 1916.

The city of Elektrostal was founded in 1916 as a result of the construction of the Elektrostal Metallurgical Plant.

Located approximately 50 kilometers east of Moscow.

Elektrostal is situated in close proximity to the Russian capital, making it easily accessible for both residents and visitors.

Known for its vibrant cultural scene.

Elektrostal is home to several cultural institutions, including museums, theaters, and art galleries that showcase the city’s rich artistic heritage.

A popular destination for nature lovers.

Surrounded by picturesque landscapes and forests, Elektrostal offers ample opportunities for outdoor activities such as hiking, camping, and birdwatching.

Hosts the annual Elektrostal City Day celebrations.

Every year, Elektrostal organizes festive events and activities to celebrate its founding, bringing together residents and visitors in a spirit of unity and joy.

Has a population of approximately 160,000 people.

Elektrostal is home to a diverse and vibrant community of around 160,000 residents, contributing to its dynamic atmosphere.

Boasts excellent education facilities.

The city is known for its well-established educational institutions, providing quality education to students of all ages.

A center for scientific research and innovation.

Elektrostal serves as an important hub for scientific research, particularly in the fields of metallurgy, materials science, and engineering.

Surrounded by picturesque lakes.

The city is blessed with numerous beautiful lakes, offering scenic views and recreational opportunities for locals and visitors alike.

Well-connected transportation system.

Elektrostal benefits from an efficient transportation network, including highways, railways, and public transportation options, ensuring convenient travel within and beyond the city.

Famous for its traditional Russian cuisine.

Food enthusiasts can indulge in authentic Russian dishes at numerous restaurants and cafes scattered throughout Elektrostal.

Home to notable architectural landmarks.

Elektrostal boasts impressive architecture, including the Church of the Transfiguration of the Lord and the Elektrostal Palace of Culture.

Offers a wide range of recreational facilities.

Residents and visitors can enjoy various recreational activities, such as sports complexes, swimming pools, and fitness centers, enhancing the overall quality of life.

Provides a high standard of healthcare.

Elektrostal is equipped with modern medical facilities, ensuring residents have access to quality healthcare services.

Home to the Elektrostal History Museum.

The Elektrostal History Museum showcases the city’s fascinating past through exhibitions and displays.

A hub for sports enthusiasts.

Elektrostal is passionate about sports, with numerous stadiums, arenas, and sports clubs offering opportunities for athletes and spectators.

Celebrates diverse cultural festivals.

Throughout the year, Elektrostal hosts a variety of cultural festivals, celebrating different ethnicities, traditions, and art forms.

Electric power played a significant role in its early development.

Elektrostal owes its name and initial growth to the establishment of electric power stations and the utilization of electricity in the industrial sector.

Boasts a thriving economy.

The city’s strong industrial base, coupled with its strategic location near Moscow, has contributed to Elektrostal’s prosperous economic status.

Houses the Elektrostal Drama Theater.

The Elektrostal Drama Theater is a cultural centerpiece, attracting theater enthusiasts from far and wide.

Popular destination for winter sports.

Elektrostal’s proximity to ski resorts and winter sport facilities makes it a favorite destination for skiing, snowboarding, and other winter activities.

Promotes environmental sustainability.

Elektrostal prioritizes environmental protection and sustainability, implementing initiatives to reduce pollution and preserve natural resources.

Home to renowned educational institutions.

Elektrostal is known for its prestigious schools and universities, offering a wide range of academic programs to students.

Committed to cultural preservation.

The city values its cultural heritage and takes active steps to preserve and promote traditional customs, crafts, and arts.

Hosts an annual International Film Festival.

The Elektrostal International Film Festival attracts filmmakers and cinema enthusiasts from around the world, showcasing a diverse range of films.

Encourages entrepreneurship and innovation.

Elektrostal supports aspiring entrepreneurs and fosters a culture of innovation, providing opportunities for startups and business development.

Offers a range of housing options.

Elektrostal provides diverse housing options, including apartments, houses, and residential complexes, catering to different lifestyles and budgets.

Home to notable sports teams.

Elektrostal is proud of its sports legacy, with several successful sports teams competing at regional and national levels.

Boasts a vibrant nightlife scene.

Residents and visitors can enjoy a lively nightlife in Elektrostal, with numerous bars, clubs, and entertainment venues.

Promotes cultural exchange and international relations.

Elektrostal actively engages in international partnerships, cultural exchanges, and diplomatic collaborations to foster global connections.

Surrounded by beautiful nature reserves.

Nearby nature reserves, such as the Barybino Forest and Luchinskoye Lake, offer opportunities for nature enthusiasts to explore and appreciate the region’s biodiversity.

Commemorates historical events.

The city pays tribute to significant historical events through memorials, monuments, and exhibitions, ensuring the preservation of collective memory.

Promotes sports and youth development.

Elektrostal invests in sports infrastructure and programs to encourage youth participation, health, and physical fitness.

Hosts annual cultural and artistic festivals.

Throughout the year, Elektrostal celebrates its cultural diversity through festivals dedicated to music, dance, art, and theater.

Provides a picturesque landscape for photography enthusiasts.

The city’s scenic beauty, architectural landmarks, and natural surroundings make it a paradise for photographers.

Connects to Moscow via a direct train line.

The convenient train connection between Elektrostal and Moscow makes commuting between the two cities effortless.

A city with a bright future.

Elektrostal continues to grow and develop, aiming to become a model city in terms of infrastructure, sustainability, and quality of life for its residents.

In conclusion, Elektrostal is a fascinating city with a rich history and a vibrant present. From its origins as a center of steel production to its modern-day status as a hub for education and industry, Elektrostal has plenty to offer both residents and visitors. With its beautiful parks, cultural attractions, and proximity to Moscow, there is no shortage of things to see and do in this dynamic city. Whether you’re interested in exploring its historical landmarks, enjoying outdoor activities, or immersing yourself in the local culture, Elektrostal has something for everyone. So, next time you find yourself in the Moscow region, don’t miss the opportunity to discover the hidden gems of Elektrostal.

Q: What is the population of Elektrostal?

A: As of the latest data, the population of Elektrostal is approximately XXXX.

Q: How far is Elektrostal from Moscow?

A: Elektrostal is located approximately XX kilometers away from Moscow.

Q: Are there any famous landmarks in Elektrostal?

A: Yes, Elektrostal is home to several notable landmarks, including XXXX and XXXX.

Q: What industries are prominent in Elektrostal?

A: Elektrostal is known for its steel production industry and is also a center for engineering and manufacturing.

Q: Are there any universities or educational institutions in Elektrostal?

A: Yes, Elektrostal is home to XXXX University and several other educational institutions.

Q: What are some popular outdoor activities in Elektrostal?

A: Elektrostal offers several outdoor activities, such as hiking, cycling, and picnicking in its beautiful parks.

Q: Is Elektrostal well-connected in terms of transportation?

A: Yes, Elektrostal has good transportation links, including trains and buses, making it easily accessible from nearby cities.

Q: Are there any annual events or festivals in Elektrostal?

A: Yes, Elektrostal hosts various events and festivals throughout the year, including XXXX and XXXX.

Was this page helpful?

Our commitment to delivering trustworthy and engaging content is at the heart of what we do. Each fact on our site is contributed by real users like you, bringing a wealth of diverse insights and information. To ensure the highest standards of accuracy and reliability, our dedicated editors meticulously review each submission. This process guarantees that the facts we share are not only fascinating but also credible. Trust in our commitment to quality and authenticity as you explore and learn with us.

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Strange Glow Over Moscow Skies Triggers Panic as Explosions Reported

B right flashes lit up the night sky in southern Moscow in the early hours of Thursday morning, new footage appears to show, following reports of an explosion at an electrical substation on the outskirts of the city.

Video snippets circulating on Russian-language Telegram channels show a series of flashes on the horizon of a cloudy night sky, momentarily turning the sky a number of different colors. In a clip shared by Russian outlet MSK1.ru, smoke can be seen rising from a building during the flashes lighting up the scene.

Newsweek was unable to independently verify the details of the video clips, including when and where it was filmed. The Russian Ministry of Emergency situations has been contacted via email.

Several Russian Telegram accounts said early on Thursday that residents of southern Moscow reported an explosion and a fire breaking out at an electrical substation in the Leninsky district, southeast of central Moscow.

Local authorities in the Leninsky district told Russian outlet RBC that the explosion had happened in the village of Molokovo. "All vital facilities are operating as normal," Leninsky district officials told the outlet.

The incident at the substation in Molokovo took place just before 2 a.m. local time, MSK1.ru reported.

Messages published by the ASTRA Telegram account, run by independent Russian journalists, appear to show residents close to the substation panicking as they question the bright flashes in the sky. One local resident describes seeing the bright light before losing access to electricity, with another calling the incident a "nightmare."

More than 10 villages and towns in the southeast of Moscow lost access to electricity, the ASTRA Telegram account also reported. The town of Lytkarino to the southeast of Moscow, lost electricity, wrote the eastern European-based independent outlet, Meduza.

Outages were reported in the southern Domodedovo area of the city, according to another Russian outlet, as well as power failures in western Moscow. Electricity was then restored to the areas, the Strana.ua outlet reported.

The cause of the reported explosion is not known. A Telegram account aggregating news for the Lytkarino area described the incident as "an ordinary accident at a substation."

The MSK1.ru outlet quoted a local resident who speculated that a drone may have been responsible for the explosion, but no other Russian source reported this as a possible cause.

Ukraine has repeatedly targeted Moscow with long-range aerial drones in recent months, including a dramatic wave of strikes in late May.

On Sunday, Moscow Mayor Sergei Sobyanin said the region's air defense systems had intercepted an aerial drone over the city of Elektrostal, to the east of Moscow. No damage or casualties were reported, he said.

The previous day, Russian air defenses detected and shot down another drone flying over the Bogorodsky district, northeast of central Moscow, Sobyanin said.

There is currently no evidence that an aerial drone was responsible for the reported overnight explosion at the electrical substation in southern Moscow.

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Geographic coordinates of Elektrostal, Moscow Oblast, Russia

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Coordinates of Elektrostal in decimal degrees

Coordinates of elektrostal in degrees and decimal minutes, utm coordinates of elektrostal, geographic coordinate systems.

WGS 84 coordinate reference system is the latest revision of the World Geodetic System, which is used in mapping and navigation, including GPS satellite navigation system (the Global Positioning System).

Geographic coordinates (latitude and longitude) define a position on the Earth’s surface. Coordinates are angular units. The canonical form of latitude and longitude representation uses degrees (°), minutes (′), and seconds (″). GPS systems widely use coordinates in degrees and decimal minutes, or in decimal degrees.

Latitude varies from −90° to 90°. The latitude of the Equator is 0°; the latitude of the South Pole is −90°; the latitude of the North Pole is 90°. Positive latitude values correspond to the geographic locations north of the Equator (abbrev. N). Negative latitude values correspond to the geographic locations south of the Equator (abbrev. S).

Longitude is counted from the prime meridian ( IERS Reference Meridian for WGS 84) and varies from −180° to 180°. Positive longitude values correspond to the geographic locations east of the prime meridian (abbrev. E). Negative longitude values correspond to the geographic locations west of the prime meridian (abbrev. W).

UTM or Universal Transverse Mercator coordinate system divides the Earth’s surface into 60 longitudinal zones. The coordinates of a location within each zone are defined as a planar coordinate pair related to the intersection of the equator and the zone’s central meridian, and measured in meters.

Elevation above sea level is a measure of a geographic location’s height. We are using the global digital elevation model GTOPO30 .

Elektrostal , Moscow Oblast, Russia

Antila 27 designed by the recognized European designers Michał and Adam Orych is a yacht whose idea has been based on a long-term experience of our designing team. It is a modern boat which follows the latest world trends. Attractive, dynamic body of the yacht is combined with ergonomic shaping of the deck and carefully elaborated details, which reflect discreet sport type elegance and sport ...

Antila Yachts to prywatna stocznia jachtowa w Polsce. Jesteśmy firmą rodzinną, stworzoną z pasji do żeglarstwa oraz 30 letniego doświadczenia biznesowego w sektorze prywatnym. Przez ten okres stworzyliśmy profesjonalny 50 osobowy zespół, którego doświadczenie przekłada się na jakość naszych produktów i jest źródłem sukcesu firmy.

Find Antila boats for sale in your area & across the world on YachtWorld. Offering the best selection of Antila boats to choose from.

Antila 24.4 Antila 24.4 - Premiere 2017. The space miracle. Two double bunks, a compact pantry and wet room with chemical toilet. ... The crew has a lot of space for all equipment in several moulded stowing areas. The yacht comes with standard equipment by Lewmar, Ronstan, Andersen and EasyLock. Interior panorama. ANTILA 24.4 Categorie C: 32790,00:

The weight required to sink the yacht one inch. Calculated by multiplying the LWL area by 5.333 for sea water or 5.2 for fresh water. FOR MULTIHULLS ONLY: BN - Bruce Number: The Bruce Number is a power-to-weight ratio for relative speed potential for comparing two or more boats. It takes into consideration the displacement and sail area of ...

With an open side, stern and bathing platform, the Antila 33.3 is an easy boat to access from the shore or (if the weather's nice) the water after a dip. Accommodation Whilst in the Med or Caribbean you might typically charter a 38ft to 46ft yacht, we had plenty of space for the four of us on our 33-footer.

Find Antila 33 boats for sale in your area & across the world on YachtWorld. Offering the best selection of Antila boats to choose from. ... Sandeman Yacht Company | Hamble, Hampshire. Request Info; Sponsored; 2008 Dufour 525 Grand Large. US$218,558. Navicularia Yacht Brokers | TORREVIEJA, Alicante. Request Info; Price Drop; 2016 Antila 33. US ...

Antila Yachts. www.antila-yachts.pl. Poland. ul. Przemysłowa 8, 26-600 Radom. Antila Yachts - known Polish producer of sailing yachts from 7 to 10 meters. The whole range is produced at Antila Yachts the production capacity of the company in Poland and in the Republic of Belarus.

Antila 26CC is a 27′ 2″ / 8.3 m monohull sailboat designed by Adam & Michael Orych and built by Antila Yachts starting in 2012. ... Antila Yacht Shipyard Jachtowa Cezary Duchnik. ul. Industrial 8, 26-600 Radom e-mail: [email protected] Tel: +48 363 30 39 Tel: 602 63 48 35.

Antila 27 is a 29′ 0″ / 8.9 m monohull sailboat designed by Michal & Adam Orych and built by Antila Yachts starting in 2009. Great choice! Your favorites are temporarily saved for this session. Sign in to save them permanently, access them on any device, and receive relevant alerts.

Antila 26cc was designed by the team Adam & Michal Orych and fist launched in 2012. The innovative design earned numerous awards. ... The crew has a lot of space for all equipment in several moulded stowing areas. The yacht comes with standard equipment by Lewmar, Ronstan, Andersen and EasyLock. Interior panorama. ANTILA 26cc Categorie C:

Antila 26cc Sailboat: Antila Yachts, used boat, GRP/polyester Length x beam: 8.30 m x 2.90 m, 8.30 x 2.90 m built: 2020 € 44,650 Location: Germany, Frankfurt / Oder 2020 Company: IMPOL Yacht & Bootsimporte

Antila Yacht is a reputable yacht shipyard specialising in the production of the sailboats of polyester glass laminate. Our yachts are designed and built by the team of experienced and well-qualified Polish boatbuilders. Such approach allow us to create an individual configuration of the yacht together with the client, which would meet the ...

Antila 26 cc is the perfect combination of functionality and eye-catching design . In this yacht, as in every Antila model, the most important thing is security and very high comfort both in the cockpit and in the mess. The ergonomic, spacious and refined cockpit guarantees comfort while sailing and when stationary.

Az Antila Yachts hajógyár egy modern, 35 éves hajógyártói tapasztalattal rendelkező, professzionális vállalkozás, ahol egy 50 fős csapat, a 24 - 34 láb közötti méretkategóriában készíti középkategóriás túravitorlásait.

Antila Yacht Shipyard Jachtowa Cezary Duchnik ul. Industrial 8, 26-600 Radom e-mail: [email protected] Tel: +48 363 30 39 Tel: 602 63 48 35 ... The LWL will increase as the yacht sinks into the water with the added weight of stores and equipment. BEAM: This is the greatest width of the hull and is often expressed as Beam (Max). Beam WL ...

Known as the "Motor City of Russia." Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname "Motor City" due to its significant involvement in the automotive industry.. Home to the Elektrostal Metallurgical Plant. Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

Antila 24.4 lieferbar 2023 Sailboat: Antila Yachts, used boat, GRP/polyester Length x beam: 8.20 m x 2.70 m, 8.20 x 2.70 m built: 2020 € 39,500 Location: Germany, Brandenburg - Frankfurt (Oder 2020 Company: IMPOL Yacht & Bootsimporte

Find company research, competitor information, contact details & financial data for BETA GIDA, OOO of Elektrostal, Moscow region. Get the latest business insights from Dun & Bradstreet.

B right flashes lit up the night sky in southern Moscow in the early hours of Thursday morning, new footage appears to show, following reports of an explosion at an electrical substation on the ...

Geographic coordinates of Elektrostal, Moscow Oblast, Russia in WGS 84 coordinate system which is a standard in cartography, geodesy, and navigation, including Global Positioning System (GPS). Latitude of Elektrostal, longitude of Elektrostal, elevation above sea level of Elektrostal.