{"appState":{"pageLoadApiCallsStatus":true},"articleState":{"article":{"headers":{"creationTime":"2016-03-26T17:21:03+00:00","modifiedTime":"2016-03-26T17:21:03+00:00","timestamp":"2022-09-14T18:06:51+00:00"},"data":{"breadcrumbs":[{"name":"Academics & The Arts","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33662"},"slug":"academics-the-arts","categoryId":33662},{"name":"Science","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33756"},"slug":"science","categoryId":33756},{"name":"Physics","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33769"},"slug":"physics","categoryId":33769}],"title":"Use the Principle of Conservation of Mechanical Energy to Find an Object’s Final Speed","strippedTitle":"use the principle of conservation of mechanical energy to find an object’s final speed","slug":"use-the-principle-of-conservation-of-mechanical-energy-to-find-an-objects-final-speed","canonicalUrl":"","seo":{"metaDescription":"Thanks to the principle of conservation of mechanical energy, you can use physics to calculate the final speed of an object that starts from rest. “Serving as a","noIndex":0,"noFollow":0},"content":"<p>Thanks to the principle of conservation of mechanical energy, you can use physics to calculate the final speed of an object that starts from rest.</p>\n<p>“Serving as a roller coaster test pilot is a tough gig,” you say as you strap yourself into the Physics Park’s new Bullet Blaster III coaster. “But someone has to do it.” The crew closes the hatch and you’re off down the totally frictionless track. Halfway down the 400-meter drop, however, the speedometer breaks. How can you record your top speed when you get to the bottom?</p>\n<p>No problem; all you need is the principle of conservation of mechanical energy, which says that if the net work done by nonconservative forces is zero, the total mechanical energy of an object is conserved. You know that</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331462.image0.png\" width=\"201\" height=\"37\" alt=\"image0.png\"/>\n<p>You can make this equation a little easier. Your initial velocity is 0 and your final height is 0, so two of the terms will drop out when you plug in the numbers. You can then divide both sides by <i>m,</i> so you get</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331463.image1.png\" width=\"95\" height=\"80\" alt=\"image1.png\"/>\n<p>Much nicer. Solve for <i>v</i><sub>2</sub> by rearranging the terms and taking the square root of both sides:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331464.image2.png\" width=\"77\" height=\"28\" alt=\"image2.png\"/>\n<p>Then plugging in the numbers gives you the speed:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331465.image3.png\" width=\"239\" height=\"39\" alt=\"image3.png\"/>\n<p>The coaster travels at 89 meters/second, or about 198 miles/hour, at the bottom of the track — should be fast enough for most kids.</p>","description":"<p>Thanks to the principle of conservation of mechanical energy, you can use physics to calculate the final speed of an object that starts from rest.</p>\n<p>“Serving as a roller coaster test pilot is a tough gig,” you say as you strap yourself into the Physics Park’s new Bullet Blaster III coaster. “But someone has to do it.” The crew closes the hatch and you’re off down the totally frictionless track. Halfway down the 400-meter drop, however, the speedometer breaks. How can you record your top speed when you get to the bottom?</p>\n<p>No problem; all you need is the principle of conservation of mechanical energy, which says that if the net work done by nonconservative forces is zero, the total mechanical energy of an object is conserved. You know that</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331462.image0.png\" width=\"201\" height=\"37\" alt=\"image0.png\"/>\n<p>You can make this equation a little easier. Your initial velocity is 0 and your final height is 0, so two of the terms will drop out when you plug in the numbers. You can then divide both sides by <i>m,</i> so you get</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331463.image1.png\" width=\"95\" height=\"80\" alt=\"image1.png\"/>\n<p>Much nicer. Solve for <i>v</i><sub>2</sub> by rearranging the terms and taking the square root of both sides:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331464.image2.png\" width=\"77\" height=\"28\" alt=\"image2.png\"/>\n<p>Then plugging in the numbers gives you the speed:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/331465.image3.png\" width=\"239\" height=\"39\" alt=\"image3.png\"/>\n<p>The coaster travels at 89 meters/second, or about 198 miles/hour, at the bottom of the track — should be fast enough for most kids.</p>","blurb":"","authors":[{"authorId":8967,"name":"Steven Holzner","slug":"steven-holzner","description":" <p><b> Dr. Steven Holzner</b> has written more than 40 books about physics and programming. He was a contributing editor at <i>PC Magazine</i> and was on the faculty at both MIT and Cornell. 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Use the Principle of Conservation of Mechanical Energy to Find an Object’s Final Speed

By: Steven Holzner and

Updated: 03-26-2016

From The Book: Physics I For Dummies

Physics I For Dummies

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Thanks to the principle of conservation of mechanical energy, you can use physics to calculate the final speed of an object that starts from rest.

“Serving as a roller coaster test pilot is a tough gig,” you say as you strap yourself into the Physics Park’s new Bullet Blaster III coaster. “But someone has to do it.” The crew closes the hatch and you’re off down the totally frictionless track. Halfway down the 400-meter drop, however, the speedometer breaks. How can you record your top speed when you get to the bottom?

No problem; all you need is the principle of conservation of mechanical energy, which says that if the net work done by nonconservative forces is zero, the total mechanical energy of an object is conserved. You know that

You can make this equation a little easier. Your initial velocity is 0 and your final height is 0, so two of the terms will drop out when you plug in the numbers. You can then divide both sides by m, so you get

Much nicer. Solve for v₂ by rearranging the terms and taking the square root of both sides:

Then plugging in the numbers gives you the speed:

The coaster travels at 89 meters/second, or about 198 miles/hour, at the bottom of the track — should be fast enough for most kids.

About This Article

This article is from the book:

Physics I For Dummies ,

About the book author:

Dr. Steven Holzner has written more than 40 books about physics and programming. He was a contributing editor at PC Magazine and was on the faculty at both MIT and Cornell. He has authored Dummies titles including Physics For Dummies and Physics Essentials For Dummies. Dr. Holzner received his PhD at Cornell.

This article can be found in the category:

Physics ,