1. Aim: How do we explain torque?

2. Torque Thought Question 1
The horizontal bar is currently in static equilibrium. If the angle between the bar and force F2 is decreased from 90 degrees, should the magnitude of F2 be increased, decreased, or left the same in order to keep the bar in static equilibrium? The magnitude of F2 must be increased

3. Torque Thought Question 2
All of the forces acting on the merry go round are of equal magnitude. The square merry go round can rotate about point P at midlength about one of the edges. Rank the forces in order of the torques they exert (Greatest to Least) F4=F5>F2>F1>F3

4. Newton’s 2nd Law of Rotational Motion
The net torque on a rigid body about an axis is equal to the rotational inertia of that body about the axis multiplied by the angular acceleration of the rigid body. τ=Iα

5. Thought Question 3
Rank the angular accelerations of the bar from greatest to least when φ is equal to 70 degrees, 90 degrees, and 110 degrees. At 90 degrees, the angular acceleration is the greatest and the angular acceleration is the same at 70 degrees and 110 degrees.

6. Problem 4a
A disk shaped rotating flywheel has a radius of 2m and a total mass of 5kg. A torque of 20 N m is applied tangential to the wheel. What is its angular acceleration? τ=Iα I=1/2MR2=1/2(5)(2)2 = 10 kg m2 20=10 α α=2 rad/s2

7. Problem 4b
A force of 5.0 N is applied tangent to the edge of a sphere of radius 0.8 m and mass 3.0 kg. Calculate the torque produced by this force and the resulting angular acceleration of the sphere. Recall that Icm = 2/5 MR2 for a sphere. τ=Iα τ=rF=0.8(5)=4Nm I=2/5MR2=2/5(3)(0.8)2 =0.768 kg m2 4=0.768α α=5.2 rad/s2