A 2.00-kg piece of wood slides on the surface shown. The curve slides are perfectly smooth but the rough horizontal bottom is 30m long and has a kinetic coefficient of 0.20 with the wood. The piece of wood starts from rest 4.0m above the rough bottom. Let: X: the wood is located at the edge of the curve; Y: just before the wood slides the rough part of the surface and Z: when the wood stopped at the rough part of the surface. a. Calculate total mechanical energies at X, Y, and Z. b. Calculate the maximum distance the wood can travel along the rough bottom. d. Is the total mechanical energy conserved f
A 2.00-kg piece of wood slides on the surface shown. The curve slides are perfectly smooth but the rough horizontal bottom is 30m long and has a kinetic coefficient of 0.20 with the wood. The piece of wood starts from rest 4.0m above the rough bottom. Let: X: the wood is located at the edge of the curve; Y: just before the wood slides the rough part of the surface and Z: when the wood stopped at the rough part of the surface. a. Calculate total mechanical energies at X, Y, and Z. b. Calculate the maximum distance the wood can travel along the rough bottom. d. Is the total mechanical energy conserved f
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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A 2.00-kg piece of wood slides on the surface shown. The
curve slides are perfectly smooth but the rough horizontal
bottom is 30m long and has a kinetic coefficient of 0.20
with the wood. The piece of wood starts from rest 4.0m
above the rough bottom. Let:
X: the wood is located at the edge of the curve;
Y: just before the wood slides the rough part of the surface and
Z: when the wood stopped at the rough part of the surface.
a. Calculate total mechanical energies at X, Y, and Z.
b. Calculate the maximum distance the wood can travel along the rough bottom.
d. Is the total mechanical energy conserved from points 1 to 3? Explain.
e. Is the total energy conserved from points 1 to 3? Explain.
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