Torque and Angular Momentum

Similar documents
Chapter 11 Rotational Dynamics and Static Equilibrium. Copyright 2010 Pearson Education, Inc.

Conceptual Dynamics SDC. An Interactive Text and Workbook. Kirstie Plantenberg Richard Hill. Better Textbooks. Lower Prices.

Chapter 8 Rotational Equilibrium and Rotational Dynamics Force vs. Torque Forces cause accelerations Torques cause angular accelerations Force and

General Definition of Torque, final. Lever Arm. General Definition of Torque 7/29/2010. Units of Chapter 10

Chapter 8. Centripetal Force and The Law of Gravity

Torque. Objectives. Assessment. Assessment. Equations. Physics terms 6/2/14

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

Physics A - PHY 2048C

Application of Forces. Chapter Eight. Torque. Force vs. Torque. Torque, cont. Direction of Torque 4/7/2015

Chapter 8. Rotational Equilibrium and Rotational Dynamics

Rigid Body Dynamics (continued)

Chapter 8 Rotational Motion and Equilibrium

Honors Physics Final Review Summary

Torque. Physics 6A. Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB

Rotational Kinetic Energy

Lecture 8. Torque. and Equilibrium. Pre-reading: KJF 8.1 and 8.2

CHAPTER 9 ROTATIONAL DYNAMICS

Chapter 8. Rotational Equilibrium and Rotational Dynamics

Rotational Motion and Torque

Phys101 Lectures 19, 20 Rotational Motion

DEVIL PHYSICS THE BADDEST CLASS ON CAMPUS AP PHYSICS

Chap10. Rotation of a Rigid Object about a Fixed Axis

Phy 213: General Physics III 6/14/2007 Chapter 28 Worksheet 1

Study Guide Physics Pre-Comp 2013

Rotational Dynamics. A wrench floats weightlessly in space. It is subjected to two forces of equal and opposite magnitude: Will the wrench accelerate?

Rotation. I. Kinematics - Angular analogs

Chapter 12: Rotation of Rigid Bodies. Center of Mass Moment of Inertia Torque Angular Momentum Rolling Statics

Dynamics. Dynamics of mechanical particle and particle systems (many body systems)

Chapter 9 TORQUE & Rotational Kinematics

Kinetics of Particles. Chapter 3

Rotational Equilibrium

Phys101 Second Major-061 Zero Version Coordinator: AbdelMonem Saturday, December 09, 2006 Page: 1

Chapter 9 Vector Differential Calculus, Grad, Div, Curl

Phys101 Final Code: 1 Term: 132 Wednesday, May 21, 2014 Page: 1

Torque. Introduction. Torque. PHY torque - J. Hedberg

Lecture PowerPoints. Chapter 8 Physics: Principles with Applications, 6 th edition Giancoli

CHAPTER 6 WORK AND ENERGY

DEVIL PHYSICS BADDEST CLASS ON CAMPUS IB PHYSICS

Rotational Equilibrium

DEVIL PHYSICS THE BADDEST CLASS ON CAMPUS AP PHYSICS

. (7.1.1) This centripetal acceleration is provided by centripetal force. It is directed towards the center of the circle and has a magnitude

Sample Test 3. STUDENT NAME: STUDENT id #:

Torque rotational force which causes a change in rotational motion. This force is defined by linear force multiplied by a radius.

Kinetic Energy of Rolling

III. Work and Energy

Physics 1A. Lecture 10B

Rotational N.2 nd Law

Rotational N.2 nd Law

Angular Momentum. Objectives CONSERVATION OF ANGULAR MOMENTUM

Moment of Inertia Race

Chapter 8. Rotational Motion

= o + t = ot + ½ t 2 = o + 2

Rotation Torque Moment of Inertia

Lecture 5: Equilibrium and Oscillations

CHAPTER 8b Static Equilibrium Units

TORQUE Diandra Leslie-Pelecky Edited by Anne Starace

Chapter 10. Rotation

Rotation of Rigid Objects

General Physics (PHY 2130)

ROTATIONAL DYNAMICS AND STATIC EQUILIBRIUM

Study Guide: PS. 10 Motion, Forces, Work & Simple Machines DESCRIBING MOTION SPEED

Slide 1 / 37. Rotational Motion

8 Rotational motion of solid objects

Circular Motion, Pt 2: Angular Dynamics. Mr. Velazquez AP/Honors Physics

Chapter 12: Rotation of Rigid Bodies. Center of Mass Moment of Inertia Torque Angular Momentum Rolling Statics

( )( ) ( )( ) Fall 2017 PHYS 131 Week 9 Recitation: Chapter 9: 5, 10, 12, 13, 31, 34

Torque and Rotational Equilibrium

Center of Gravity Pearson Education, Inc.

Rotational Dynamics. Slide 2 / 34. Slide 1 / 34. Slide 4 / 34. Slide 3 / 34. Slide 6 / 34. Slide 5 / 34. Moment of Inertia. Parallel Axis Theorem

Cross Product Angular Momentum

Section 2: Static Equilibrium II- Balancing Torques

Physics 111. Lecture 22 (Walker: ) Torque Rotational Dynamics Static Equilibrium Oct. 28, 2009

WYSE Academic Challenge Sectional Physics 2007 Solution Set

LECTURE 15 TORQUE AND CENTER OF GRAVITY

AP Pd 3 Rotational Dynamics.notebook. May 08, 2014

Levers of the Musculoskeletal System

Yeu-Sheng Paul Shiue, Ph.D 薛宇盛 Professor and Chair Mechanical Engineering Department Christian Brothers University 650 East Parkway South Memphis, TN

Lecture 3. Rotational motion and Oscillation 06 September 2018

Physics 101 Lecture 11 Torque

Rotation. Kinematics Rigid Bodies Kinetic Energy. Torque Rolling. featuring moments of Inertia

Chapter 8. Rotational Equilibrium and Rotational Dynamics

Welcome back to Physics 211

Rotational Motion. Lecture 17. Chapter 10. Physics I Department of Physics and Applied Physics

Chapter 9- Static Equilibrium

Rotational Kinematics and Dynamics. UCVTS AIT Physics

Torque and Rotation Lecture 7

Physics 101: Lecture 15 Torque, F=ma for rotation, and Equilibrium

Rotational Motion About a Fixed Axis

Flipping Physics Lecture Notes: Demonstrating Rotational Inertia (or Moment of Inertia)

Rotational Motion. Chapter 8: Rotational Motion. Angular Position. Rotational Motion. Ranking: Rolling Cups 9/21/12

AP Physics Kinematic Wrap Up

PHYSICS. Chapter 12 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.

Chapter 8 Lecture Notes

Rotational Dynamics continued

AP Physics Multiple Choice Practice Torque

Lesson 7. Luis Anchordoqui. Physics 168. Tuesday, October 10, 17

Rotation of Rigid Objects

Handout 7: Torque, angular momentum, rotational kinetic energy and rolling motion. Torque and angular momentum

Test 7 wersja angielska

Chapter 5: Force and Motion I-a

Transcription:

CHAPTER 10 (TRQUE, 2 ND LAW FR RTATIN) CHAPTER 11 (TRQUE, ANGULAR MMENTUM) Torque and Angular Momentum 1. Torque a. Definition b. Work, Power, W-K Theorem 2. Angular Momentum a. Newton s 2 nd Law in angular form b. Systems c. Conservation of Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 1

PRDUCING RTATIN ABUT AN AXIS USING A FRCE pening a door Top view Hinge Door F 1 and F 2 will not produce rotation Producing rotation around an axis is much easier when: - the force is greater magnitude of - the force is applied farther from the axis distance r from axis - the direction of is closer to 90 with respect to the arm Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 2

RTATIN CAUSED BY TANGENTIAL CMPNENT F F F t φ P Fr causes rotation around the axis Rotation axis But actually only the tangential component F t of the force causes rotation Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 3

TRQUE we must define a new quantity that describes the effectiveness of an interaction at producing rotation about a specific axis. This quantity is called torque τ and is a vector whose: - magnitude is Distance from axis X or (Moment arm* of ) X - direction is related to the direction of rotation (remember ). *Also called lever arm Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 4

MAGNITUDE F THE TRQUE F t φ P Fr = = sin Rotation axis Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 5

2 WAYS T EXPRESS THE TRQUE MAGNITUDE Line of action of F t φ P Fr φ P Rotation axis Rotation axis r Moment of arm of = = ( sin ) = sin = Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 6

TRQUE AS A VECTR z = y To get the cross-product right, use a xyz reference obeying the righthand rule: = x P F t = sin = φ φ Direction of : (2) Screw rule Rotation direction that tends to induce (1) Right-hand rule Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 7

SIGN F A TRQUE = y - If the torque tends to produce a counterclockwise rotation, it is Positive - therwise, it is negative. x = = sin P F t φ φ positive direction Sign of given by direction along z axis Sign of is in sin, negative when going clockwise Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 8

WRK DNE BY A TRQUE (PURE RTATIN) = = cos = = cos = = = cos = lim = = If τ is constant, = = = = Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 9

WRK-KINETIC ENERGY THEREM (PURE RTATIN) = = 1 2 1 2 = ( ) When using conservation of energy in general, rotational kinetic energy should also be considered. Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 10

NEWTN S SECND LAW FR PURE RTATIN = = = F t m F r = = = For more than one force, we can generalize:, = ( ) C Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 11

TRANSLATINAL AND RTATINAL MTIN Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 12

ANGULAR MMENTUM (SINGLE PARTICLE) Linear Angular = = = Angular momentum defined: = = In general, of the particle of mass m is defined about a point ( origin of ) m Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 13

MAGNITUDE F ANGULAR MMENTUM = = of particle A about point = y = y P p t φ φ r φ P φ x x Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 14

PURE RTATIN SINGLE PARTICLE Single particle in pure rotation about axis z (oriented out of page) = = = = = unit vector along z M = = Another way to write in this case: = Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 15

NEWTN S SECND LAW IN ANGULAR FRM FR A SINGLE PARTICLE = = + = + = = = =, = The (vector) sum of all the torques acting on a particle is equal to the time rate of change of the angular momentum of that particle. All taken with respect to point. Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 16

ANGULAR MMENTUM F A SYSTEM F PARTICLES The total angular momentum of the system is the (vector) sum of the angular momenta of the individual particles (here with label i): = + + + + = With time, the angular momenta of individual particles may change because of interactions between the particles or with the outside. = =, Therefore, the net external torque acting on a system of particles is equal to the time rate of change of the system s total angular momentum., = Newton s 2 nd law in angular form for a system of particles Analogy with Newton s 2 nd law in linear form: F=dp/dt Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 17

CNSERVATIN F ANGULAR MMENTUM If total net torque is zero If the net external torque acting on a system is zero, the angular momentum of the system is constant, no matter what changes take place within the system. = = 0 = = ( ) If net torque along axis z is zero If the net external torque acting on a system is zero along a given axis z, the angular momentum L z of the system is constant., = = 0 = Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics II 18

FRMULA SUMMARY Work (pure rotation): Torque: = = If τ is constant: = Power: = = = W-K Theorem for pure rotation: = = 1 2 1 2 = ( ) Angular momentum: Newton s 2 nd law: = = Pure rotation: = = Bernard Gelloz - Nagoya U. G30 Fundamentals of Physics I 19

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback