#2 please show work so I can understand Show your work on a separate document. Block or highlight your answers.1. Refer to figure 1. Calculate the torque for each case in table 1.0.250 mTable 1: Table of angles and forcesAngle90.0°CaseForce (N)1100.02100.060.030.0°3.100.030.060.0°90.0°Figure 12. Refer to figure 1. What must the moment arm length (i.e. radius) need to be in order toget the same torque as the first case, using the same force as the first case but appliedat a 45.0° ?3. Refer to figure 2. Assume the beam's mass holding the objects is negligible, calculate

As we know, torque measures how much any force can cause the object to rotate about any Axis. It…

1. Refer to figure 1. Calculate the torque for each case in table 1. 0.250 m Table 1: Table of angles and forces Force (N) Case Angle 1 100.0 90.0° 100.0 60.0° 30.0° 3 100.0 30.0° 60.0° 90.0° Figure 1

1. Refer to figure 1. Calculate the torque for each case in table 1. 0.250 m Table 1: Table of angles and forces Force (N) Case Angle 1 100.0 90.0° 100.0 60.0° 30.0° 3 100.0 30.0° 60.0° 90.0° Figure 1

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter8: Rotational Motion

Section8.2: Rotational Dynamics

Problem 11PP

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#2 please show work so I can understand

Show your work on a separate document. Block or highlight your answers.
1. Refer to figure 1. Calculate the torque for each case in table 1.
0.250 m
Table 1: Table of angles and forces
Angle
90.0°
Case
Force (N)
1
100.0
2
100.0
60.0
30.0°
3.
100.0
30.0
60.0°
90.0°
Figure 1
2. Refer to figure 1. What must the moment arm length (i.e. radius) need to be in order to
get the same torque as the first case, using the same force as the first case but applied
at a 45.0° ?
3. Refer to figure 2. Assume the beam's mass holding the objects is negligible, calculate

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