A mass (between 0.01 kg and 1 kg) is hung by a string from the edge of amassive (between 0 kg and 2 kg) disk-shaped pulley (with a radius between 0.1and 4 meters) as shown (position given in meters, time given in seconds,and angular velocity given in radians/second).Time: 1,48omega = +7.252 For d, e, and f set the mass of the pulley to 0.5 kg, the radius of the pulley to 2 m, and vary the hangingmass.d. How does the magnitude of angular acceleration of the pulley depend on the hanging mass?i. As the hanging mass increases, the angular accelerationINCREASESorDECREASESe. How does the magnitude of acceleration of the hanging mass depend on the hanging mass?i. As the hanging mass increases, the angular accelerationINCREASESorDECREASESf.How are your answers to (d) and (e) related?

Given : mass of pulley, M = 0.5 kg Radius of pulley, r = 2 m

d. How does the magnitude of angular acceleration of the pulley depend on the hanging mass? i. As the hanging mass increases, the angular acceleration INCREASES or DECREASES e. How does the magnitude of acceleration of the hanging mass depend on the hanging mass? i. As the hanging mass increases, the angular acceleration INCREASES or DECREASES f. How are your answers to (d) and (e) related?

d. How does the magnitude of angular acceleration of the pulley depend on the hanging mass? i. As the hanging mass increases, the angular acceleration INCREASES or DECREASES e. How does the magnitude of acceleration of the hanging mass depend on the hanging mass? i. As the hanging mass increases, the angular acceleration INCREASES or DECREASES f. How are your answers to (d) and (e) related?

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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Concept explainers

Torque

Torque is the rotational equivalent of linear force in physics and mechanics. Based on the course of study, it is also known as the moment of force, rotational force, or turning effect.

Question

A mass (between 0.01 kg and 1 kg) is hung by a string from the edge of a
massive (between 0 kg and 2 kg) disk-shaped pulley (with a radius between 0.1
and 4 meters) as shown (position given in meters, time given in seconds,
and angular velocity given in radians/second).
Time: 1,48
omega = +7.252

For d, e, and f set the mass of the pulley to 0.5 kg, the radius of the pulley to 2 m, and vary the hanging
mass.
d. How does the magnitude of angular acceleration of the pulley depend on the hanging mass?
i. As the hanging mass increases, the angular acceleration
INCREASES
or
DECREASES
e. How does the magnitude of acceleration of the hanging mass depend on the hanging mass?
i. As the hanging mass increases, the angular acceleration
INCREASES
or
DECREASES
f.
How are your answers to (d) and (e) related?

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