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READING QUIZ angular acceleration. angular velocity. angular mass.

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Presentation on theme: "READING QUIZ angular acceleration. angular velocity. angular mass."— Presentation transcript:

1 READING QUIZ angular acceleration. angular velocity. angular mass.
Torque primarily depends on: angular acceleration. angular velocity. angular mass.

2 Rotational Inertia The resistance to change in rotational motion.
Torque = Moment of inertia x angular acceleration Moment of Inertia = Mass x distance from axis squared

3 Figure 8.15 Expressions for the rotational inertia of several objects, each with a uniform distribution of mass over its volume. The letter m is used to represent the total mass of the object.

4 Physics of Angular Motion
If the total torque on an object is zero, then it does not rotate, or it rotates at a constant angular velocity. Physics of Linear Motion If the total force on an object is zero, then it does not move, or it is in linear motion with constant velocity

5 CONCEPT Rotational Inertia m I Second Law F=ma  Momentum P=mv L=I
Linear Motion Rotational Inertia m I Second Law F=ma  Momentum P=mv L=I conservation P=constant, if F=0. L=constant, if  Kinetic energy KE=1/2mv2 KE=1/2I2

6

7 Fig. 8.16 Fig. 8.16

8 Physics of Angular Motion
If the net torque on a system is zero, the total angular momentum of the system is conserved. L=I L = vector I = Tensor w = vector

9 Fig. 8.17 Fig. 8.17

10 Fig. 8.18 Fig. 8.18

11 Fig. 8.20 Fig. 8.20 Rotational velocity is a vector. Use the right hand rule to find the direction…..

12 Fig. 8.23

13 Fig. 8.24 Fig. 8.24

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