Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 37 Exam: from 6 pm to 8 pm.

Slides:

Advertisements

Similar presentations

Classical Mechanics Review 3, Units 1-16

Advertisements

Review Problems From Chapter 10&11. 1) At t=0, a disk has an angular velocity of 360 rev/min, and constant angular acceleration of rad/s**2. How.

Chapter 11 Angular Momentum

Angular Momentum The vector angular momentum of the point mass m about the point P is given by: The position vector of the mass m relative to the point.

Chapter 11: Rolling Motion, Torque and Angular Momentum

2008 Physics 2111 Fundamentals of Physics Chapter 11 1 Fundamentals of Physics Chapter 12 Rolling, Torque & Angular Momentum 1.Rolling 2.The Kinetic Energy.

Dynamics of a Rigid Body

Chapter 5 Rotation of a Rigid Body. §5-5 Angular Momentum of a rigid Body Conservation of Angular Momentum §5-1 Motion of a Rigid body §5-2 Torque The.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 24.

Problem Solving For Conservation of Momentum problems: 1.BEFORE and AFTER 2.Do X and Y Separately.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 35,36.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 18.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 31 Hw: Chapter 13 problems and exercises.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures Hw: Chapter 13 problems and exercises Reading: Chapter 14.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 13.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 24.

Using the “Clicker” If you have a clicker now, and did not do this last time, please enter your ID in your clicker. First, turn on your clicker by sliding.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 42.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 28.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 33.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 12.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 27, 28.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 30 Hw: Chapter 12 problems and exercises Chapter 13: Prs. 1,2; Exs. 2,4.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures Hw: Chapter 15 problems and exercises.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 19.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 24, 25 Hw: Chapter 15 problems and exercises.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 32, 33, 34 Hw: Chapter 14 problems and exercises.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 27.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 23.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 22, 23 Hw: Chapter 14 problems and exercises.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 21 Hw: Chapter 13 problems and exercises.

Classical Mechanics Review 4: Units 1-19

Chapter 11 Angular Momentum; General Rotation. Angular Momentum—Objects Rotating About a Fixed Axis Vector Cross Product; Torque as a Vector Angular Momentum.

Angular Momentum of a Particle

Chapter 11 Angular Momentum.

Chapter 8: Torque and Angular Momentum

Give the expression for the velocity of an object rolling down an incline without slipping in terms of h (height), M(mass), g, I (Moment of inertia) and.

Torque Chap 8 Units: m N 2.

T071 Q17. A uniform ball, of mass M = kg and radius R = 0

Physics 111 Practice Problem Statements 11 Angular Momentum SJ 8th Ed

Conservation of Angular Momentum Dynamics of a rigid object

Rotational and Translational Motion Dynamics 8

Physics 111 Practice Problem Statements 10 Torque, Energy, Rolling SJ 8th Ed.: Chap 10.6 – 10.9 Contents 11-47, 11-49*, 11-55*, 11-56, 11-60*, 11-63,

Lecture 25: Problem solving review For test 3. How to identify type of problem? If object is not moving at all, or moving at constant velocity: no acceleration,

Rotational Motion. 6-1 Angular Position, Velocity, & Acceleration.

Rotational and Translational Motion Dynamics 8

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 30, 31, 32.

Exam is Wednesday at 7:00 pm Remember extra office hours

Physics 211 Second Sample Exam Fall 2004 Professors Aaron Dominguez and Gregory Snow Please print your name _______________________________________________________________.

1. What is the difference in elastic and inelastic collisions?

Would you rather be hit by a tennis ball or a bowling ball?

Chapt. 10: Angular Momentum

AP Phys B Test Review Momentum and Energy 4/28/2008.

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Classical Mechanics Review 4: Units 1-22

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Collisions at an Angle The total momentum of the two football players prior to the collision is the vector sum of their individual momentums. The larger.

Rigid Body: Rotational and Translational Motion; Rolling without Slipping 8.01 W11D1 Today’s Reading Assignment Young and Freedman: 10.3.

Rotational Kinematics

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Instructor: Dr. Tatiana Erukhimova

Rigid Body: Rotational and Translational Motion; Rolling without Slipping 8.01 W11D1 Today’s Reading Assignment Young and Freedman:

Presentation transcript:

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 37 Exam: from 6 pm to 8 pm

Circular Motion y x

Quiz from Nov. 16 The block of mass M is placed on a rotating platform, a distance L from the center. The coefficient of friction between the block and the platform is . What is the largest constant value that  can have before the block starts slipping?

Ex.5 A wheel, with radius 0.5 m and moment of inertia 50 kg m 2 about its center, rotates about a frictionless axle with angular velocity 10 radians per second. A brake is applied which supplies a constant force to a point on the perimeter of the wheel of 10 N, tangent to the wheel and opposing the motion. How many revolutions will the wheel make before coming to rest?

Ex. 4 A platform can rotate, without friction, about a vertical axle through its center with a moment of inertia, I p. A small bug of mass m is placed on the platform at a distance b from the center, and the system is set spinning with angular velocity  0 (Clockwise as viewed from above). a) What is the total angular momentum of the system with the bug at rest on the platform? b) What is the total angular momentum if he runs in the opposite direction to the platform’s rotation? c) Is it possible for a little bug to stop the big platform from rotating?

Pr. 1 A bullet of mass m is fired in the negative x direction with velocity og magnitude V 0, starting at x = x 0, y=b. (y remains constant) What is its angular momentum, with respect to the origin, as a function of x? Neglect gravity.

Conservation of Momentum If the collision is perfectly elastic, the kinetic energy is conserved!

Two disks are spinning on a frictionless axle. The one on the left has mass M, radius R L, and moment of inertia about the axle I L. It is spinning with  L in the direction shown. It is moving to the right with velocity of magnitude v 0. The one on the right has mass M, radius R R, and moment of inertia about the axle I R. It is spinning with  R in the direction shown. It is moving to the left with velocity of magnitude v 0. When the two disks collide they stick together. What is the velocity and the angular velocity of the combined system after the collision?

Torque and Angular Momentum Conservation of Angular Momentum

Help Session: When: tonight at 7:10 pm Where: 202 James J. Cain Engineering/Physics Lab Building Spence St.

Have a great day! Hw: Be prepared for the test Good luck!