1a. If the far end of the track is raised (the side farthest from the pulley), how does the problem change? Find an expression for the acceleration. Can the system be balanced such that the masses don't move? 1b. If the end of the track near the pulley is raised, how does the it affect the previous equations? Find an expression for the new acceleration. Can the system be balanced such that the masses don't move?
1a. If the far end of the track is raised (the side farthest from the pulley), how does the problem change? Find an expression for the acceleration. Can the system be balanced such that the masses don't move? 1b. If the end of the track near the pulley is raised, how does the it affect the previous equations? Find an expression for the new acceleration. Can the system be balanced such that the masses don't move?
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Introduction
Section: Chapter Questions
Problem 45P: In Figure P1.49, find (a) the side opposite , (b) the side adjacent to . (c) cos , (d) sin , and (c)...
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1a. If the far end of the track is raised (the side farthest from the pulley), how does the problem change? Find an expression for the acceleration. Can the system be balanced such that the masses don't move?
1b. If the end of the track near the pulley is raised, how does the it affect the previous equations? Find an expression for the new acceleration. Can the system be balanced such that the masses don't move?
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