Torque & Rotational Motion. Center of Mass Average location of an object’s mass.

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Presentation transcript:

Torque & Rotational Motion

Center of Mass Average location of an object’s mass

Equilibrium A body is in stable equilibrium if it returns to its equilibrium position after it has been displaced slightly –Displacement raises cg A body is in unstable equilibrium if it does not return to its equilibrium position and does not remain in the displaced position after it has been displaced slightly. –Displacement lowers cg A body is in neutral equilibrium if it stays in the displaced position after if has been displaced slightly. –neither raises nor lowers cg

Center of Mass Path Projectile center of mass follows parabolic path.

Fosbury Flop In the Fosbury Flop, the center of mass of the high jumper actually passes under the bar. Dick Fosbury

ConcepTest A meter stick is suspended at the center. If a 1 kg weight is placed at x=0. Where do you need to place a 2 kg weight to balance it? A) x = 25B) x = 50C) x = 75D) x = 100 E) 1 kg can’t balance a 2 kg weight. 1 kg 2kg 50 cm

Torque Torque = Force X Torque Arm Net Torque = 0 for rotational equilibrium

Torque Rotational effect of force. Tells how effective force is at twisting or rotating an object or at changing the rate of rotation.  = +- r F perpendicular = r F sin  –Units N m –Sign: CCW rotation is positive

ConcepTest The picture below shows three different ways of using a wrench to loosen a stuck nut. Assume the applied force F is the same in each case. In which of the cases is the torque on the nut the biggest? A. Case 1 B. Case 2 C. Case 3

Torque Example 1

Torque Example 2

Torque Example 3

ConcepTest a. the handle end b. the bristle end c. they weigh the same

Rotational Inertia Resistance to a change in rotational motion Depends on the distribution of the mass about the axis of rotation

Hoop versus Disk A solid cylinder will reach the bottom first because of its lesser rotational inertia.

Angular Momentum Linear Momentum: mass x velocity Angular Momentum: rotational inertia x angular velocity An object or system of objects will maintain its angular momentum unless acted upon by an unbalanced external torque.