Lecture Outline Chapter 11. Physics, 4 th Edition James S. Walker. Copyright 2010 Pearson Education, Inc.

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Transcription:

Lecture Outline Chapter 11 Physics, 4 th Edition James S. Walker

Chapter 11 Rotational Dynamics and Static Equilibrium

Units of Chapter 11 Torque Torque and Angular Acceleration Zero Torque and Static Equilibrium Center of Mass and Balance Dynamic Applications of Torque Angular Momentum

Units of Chapter 11 Conservation of Angular Momentum Rotational Work and Power The Vector Nature of Rotational Motion

11-1 Torque From experience, we know that the same force will be much more effective at rotating an object such as a nut or a door if our hand is not too close to the axis. This is why we have long-handled wrenches, and why doorknobs are not next to hinges.

11-1 Torque We define a quantity called torque: The torque increases as the force increases, and also as the distance increases.

11-1 Torque Only the tangential component of force causes a torque:

11-1 Torque This leads to a more general definition of torque:

11-1 Torque If the torque causes a counterclockwise angular acceleration, it is positive; if it causes a clockwise angular acceleration, it is negative.

11-2 Torque and Angular Acceleration Newton s second law: If we consider a mass m rotating around an axis a distance r away, we can reformat Newton s second law to read: Or equivalently,

11-2 Torque and Angular Acceleration Once again, we have analogies between linear and angular motion:

11-3 Zero Torque and Static Equilibrium Static equilibrium occurs when an object is at rest neither rotating nor translating.

11-3 Zero Torque and Static Equilibrium If the net torque is zero, it doesn t matter which axis we consider rotation to be around; we are free to choose the one that makes our calculations easiest.

11-3 Zero Torque and Static Equilibrium When forces have both vertical and horizontal components, in order to be in equilibrium an object must have no net torque, and no net force in either the x- or y-direction.

11-4 Center of Mass and Balance If an extended object is to be balanced, it must be supported through its center of mass.

11-4 Center of Mass and Balance This fact can be used to find the center of mass of an object suspend it from different axes and trace a vertical line. The center of mass is where the lines meet.

11-5 Dynamic Applications of Torque When dealing with systems that have both rotating parts and translating parts, we must be careful to account for all forces and torques correctly.

11-6 Angular Momentum Using a bit of algebra, we find for a particle moving in a circle of radius r,

11-6 Angular Momentum For more general motion,

11-6 Angular Momentum Looking at the rate at which angular momentum changes,

11-7 Conservation of Angular Momentum If the net external torque on a system is zero, the angular momentum is conserved. The most interesting consequences occur in systems that are able to change shape:

11-7 Conservation of Angular Momentum As the moment of inertia decreases, the angular speed increases, so the angular momentum does not change. Angular momentum is also conserved in rotational collisions:

11-8 Rotational Work and Power A torque acting through an angular displacement does work, just as a force acting through a distance does. The work-energy theorem applies as usual.

11-8 Rotational Work and Power Power is the rate at which work is done, for rotational motion as well as for translational motion. Again, note the analogy to the linear form:

11-9 The Vector Nature of Rotational Motion The direction of the angular velocity vector is along the axis of rotation. A right-hand rule gives the sign.

11-9 The Vector Nature of Rotational Motion A similar right-hand rule gives the direction of the torque.

11-9 The Vector Nature of Rotational Motion Conservation of angular momentum means that the total angular momentum around any axis must be constant. This is why gyroscopes are so stable.

Summary of Chapter 11 A force applied so as to cause an angular acceleration is said to exert a torque. Torque due to a tangential force: Torque in general: Newton s second law for rotation: In order for an object to be in static equilibrium, the total force and the total torque acting on the object must be zero. An object balances when it is supported at its center of mass.

Summary of Chapter 11 In systems with both rotational and linear motion, Newton s second law must be applied separately to each. Angular momentum: For tangential motion, In general, Newton s second law: In systems with no external torque, angular momentum is conserved.

Summary of Chapter 11 Work done by a torque: Power: Rotational quantities are vectors that point along the axis of rotation, with the direction given by the right-hand rule.

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