A block of mass m = 2.40 kg starts from the rest and slides down a 30.0∘ incline which is 3.60 m high. At the bottom, it strikes a block of mass M = 7.20 kg which is at rest on a horizontal surface (Figure 1). (Assume a smooth transition at the bottom of the incline.) The collision is elastic, and friction can be ignored. Determine the speed of the block with mass m = 2.40 kg after the collision. Determine the speed of the block with mass M = 7.20 kg after the collision. Determine what distance along the incline will the smaller mass climb back after the collision.
A block of mass m = 2.40 kg starts from the rest and slides down a 30.0∘ incline which is 3.60 m high. At the bottom, it strikes a block of mass M = 7.20 kg which is at rest on a horizontal surface (Figure 1). (Assume a smooth transition at the bottom of the incline.) The collision is elastic, and friction can be ignored. Determine the speed of the block with mass m = 2.40 kg after the collision. Determine the speed of the block with mass M = 7.20 kg after the collision. Determine what distance along the incline will the smaller mass climb back after the collision.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter14: Fluid Mechanics
Section: Chapter Questions
Problem 41P: Gold is sold by the troy ounce (31.103 g). What is the volume of 1 troy ounce of pure sold?
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A block of mass m = 2.40 kg starts from the rest and slides down a 30.0∘ incline which is 3.60 m high. At the bottom, it strikes a block of mass M = 7.20 kg which is at rest on a horizontal surface (Figure 1). (Assume a smooth transition at the bottom of the incline.) The collision is elastic, and friction can be ignored.
Determine the speed of the block with mass m = 2.40 kg after the collision.
Determine the speed of the block with mass M = 7.20 kg after the collision.
Determine what distance along the incline will the smaller mass climb back after the collision.
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