A) A1.2 kg block slides down a frictionless incline with a slope angle of 42°, starting from a height h =3.2 m above the bottom of the incline, as shown in Figure (2). The incline meets a frictionless horizontal surface, at the end of which is a spring in its equilibrium position (k 460 N/m) used to stop the block. Find the maximum compression of the spring.

A) A1.2 kg block slides down a frictionless incline with a slope angle of 42°, starting from a height h =3.2 m above the bottom of the incline, as shown in Figure (2). The incline meets a frictionless horizontal surface, at the end of which is a spring in its equilibrium position (k 460 N/m) used to stop the block. Find the maximum compression of the spring.

Name: A) A1.2 kg block slides down a frictionless incline with a slope angl
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Description: A) A1.2 kg block slides down a frictionless incline with a slope angle of 42", startingfrom a height h =3.2 m above the bottom of the incline, as shown in Figure (2). Theincline meets a frictionless horizontal surface, at the end of which is a sprin

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter7: Conservation Of Energy

Section: Chapter Questions

Problem 5P: A block of mass 0.250 kg is placed on top of a light, vertical spring of force constant 5 000 N/m...

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A) A 1.2 kg block slides down a frictionless incline with a slope angle of 42°, starting from a height h =3.2 m above the bottom of the incline, as shown in Figure (2). The incline meets a frictionless horizontal surface, at the end of which is a spring in its equilibrium position (k 460 N/m) used to stop the block. Find the maximum compression of the spring. h k Fig. 2
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