Presentation is loading. Please wait.

Presentation is loading. Please wait.

Classical Mechanics PHYS 2006 Tim Freegarde.

Published byClarence Dixon Modified over 5 years ago

Similar presentations

Presentation on theme: "Classical Mechanics PHYS 2006 Tim Freegarde."— Presentation transcript:

1 Classical Mechanics PHYS 2006 Tim Freegarde

2 Classical Mechanics centre of mass
LINEAR MOTION OF SYSTEMS OF PARTICLES centre of mass Newton’s 2nd law for bodies (internal forces cancel) rocket motion ANGULAR MOTION rotations and infinitessimal rotations angular velocity vector, angular momentum, torque parallel and perpendicular axis theorems rigid body rotation, moment of inertia, precession GRAVITATION & KEPLER’S LAWS conservative forces, law of universal gravitation 2-body problem, reduced mass planetary orbits, Kepler’s laws energy, effective potential NON-INERTIAL REFERENCE FRAMES centrifugal and Coriolis terms Foucault’s pendulum, weather patterns NORMAL MODES coupled oscillators, normal modes boundary conditions, Eigenfrequencies

3 Fermat’s principle of least time
B C b P P x L x refraction at a plane surface Pierre de Fermat ( )

4 Fermat’s principle of least time
Pierre de Fermat ( ) S S a light rays follow the path of least time between two points b P P x L x refraction at a plane surface

5 Snell’s law of refraction
light rays follow the path of least time between two points Willebrord Snel van Royen (Leiden, ) b P P x L x refraction at a plane surface

6 Feynman path integral PRINCIPLE OF LEAST ACTION
trajectory is that which minimizes ACTION where LAGRANGIAN Richard P Feynman ( )

7 Lagrangian Mechanics CALCULUS OF VARIATIONS if
has been chosen to minimize least (or stationary) action then EULER-LAGRANGE EQUATION LAGRANGIAN MECHANICS set , , etc. (coordinate variables)

8 Diffracting atoms E M Rasel et al, Phys Rev Lett (1995) stimulated Raman transitions equivalent to Bragg scattering from moving standing wave

9 Inertial sensing using light
Mach-Zehnder interferometer quantum wavefunction split and recombined laser-cooled atoms sense inertial Coriolis acceleration phase depends upon rotation

10 Classical Mechanics PHYS 2006 Tim Freegarde

11 Question terminology State, What, Identify, Express, Find no derivation required Explain, Describe, How in words… Derive, Prove, Show that, Determine state assumptions, proceed logically Evaluate, Indicate, Calculate, Estimate numbers, with clear assumptions Sketch as it says…

12 DEGREE CLASSIFICATIONS
First class (70%) Ability to extend or adapt standard derivations & manipulations to unseen problems Demonstrate good insight & knowledge beyond course material 2:1 (60%) Recall of standard derivations, manipulations & examples Ability to discuss critically & demonstrate some insight 2:2 (50%) Recall of simple derivations, manipulations & examples Some ability to discuss critically Third (40%) Knowledge of basic definitions, formulae, phenomena & examples Ability to apply formulae directly

13 Classical Mechanics PHYS 2006 Tim Freegarde

Download ppt "Classical Mechanics PHYS 2006 Tim Freegarde."

Similar presentations

R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.

R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.
Manipulator Dynamics Amirkabir University of Technology Computer Engineering & Information Technology Department.

Manipulator Dynamics Amirkabir University of Technology Computer Engineering & Information Technology Department.
Chapter 11 Angular Momentum; General Rotation Introduction Recap from Chapter 10 –Used torque with axis fixed in an inertial frame –Used equivalent of.

Chapter 11 Angular Momentum; General Rotation Introduction Recap from Chapter 10 –Used torque with axis fixed in an inertial frame –Used equivalent of.
Chapter 11 Angular Momentum.

Chapter 11 Angular Momentum.
Chapter 10: Rotation. Rotational Variables Radian Measure Angular Displacement Angular Velocity Angular Acceleration.

Chapter 10: Rotation. Rotational Variables Radian Measure Angular Displacement Angular Velocity Angular Acceleration.
1 Class #7 Review previous class Kinetic Energy and moment of inertia Angular Momentum And moment of inertia And torque And Central force Moment of Inertia.

1 Class #7 Review previous class Kinetic Energy and moment of inertia Angular Momentum And moment of inertia And torque And Central force Moment of Inertia.
Ch. 7: Dynamics.

Ch. 7: Dynamics.
Department of Physics and Applied Physics 95.141, F2010, Lecture 20 Physics I 95.141 LECTURE 20 11/21/10.

Department of Physics and Applied Physics , F2010, Lecture 20 Physics I LECTURE 20 11/21/10.
Phy 211: General Physics I Chapter 10: Rotation Lecture Notes.

Phy 211: General Physics I Chapter 10: Rotation Lecture Notes.
Department of Physics and Applied Physics 95.141, F2010, Lecture 19 Physics I 95.141 LECTURE 19 11/17/10.

Department of Physics and Applied Physics , F2010, Lecture 19 Physics I LECTURE 19 11/17/10.
Manipulator Dynamics Amirkabir University of Technology Computer Engineering & Information Technology Department.

Manipulator Dynamics Amirkabir University of Technology Computer Engineering & Information Technology Department.
Final exam: room 105 HECC, 8-10 am, Wednesday, December 12 th.

Final exam: room 105 HECC, 8-10 am, Wednesday, December 12 th.
Chapter 11 Angular Momentum.

Chapter 11 Angular Momentum.
Rotational Dynamics. Moment of Inertia The angular acceleration of a rotating rigid body is proportional to the net applied torque:  is inversely proportional.

Rotational Dynamics. Moment of Inertia The angular acceleration of a rotating rigid body is proportional to the net applied torque:  is inversely proportional.
Wave Physics PHYS 2023 Tim Freegarde. 2 2 Beating TWO DIFFERENT FREQUENCIES.

Wave Physics PHYS 2023 Tim Freegarde. 2 2 Beating TWO DIFFERENT FREQUENCIES.
Spring 2011 1 Topic Outline for Physics 1 Spring 2011.

Spring Topic Outline for Physics 1 Spring 2011.
College of Physics Science & Technology YANGZHOU UNIVERSITYCHINA Chapter 11ROTATION 11.1 The Motion of Rigid Bodies 11.1.1Rigid bodies A rigid body is.

College of Physics Science & Technology YANGZHOU UNIVERSITYCHINA Chapter 11ROTATION 11.1 The Motion of Rigid Bodies Rigid bodies A rigid body is.
Central Force Motion Chapter 8

Central Force Motion Chapter 8
9/7/2012PHY 711 Fall 2012 -- Lecture 51 PHY 711 Classical Mechanics and Mathematical Methods 10-10:50 AM MWF Olin 103 Plan for Lecture 5: 1.Chapter 2 –

9/7/2012PHY 711 Fall Lecture 51 PHY 711 Classical Mechanics and Mathematical Methods 10-10:50 AM MWF Olin 103 Plan for Lecture 5: 1.Chapter 2 –
Physics 311 Classical Mechanics Welcome! Syllabus. Discussion of Classical Mechanics. Topics to be Covered. The Role of Classical Mechanics in Physics.

Physics 311 Classical Mechanics Welcome! Syllabus. Discussion of Classical Mechanics. Topics to be Covered. The Role of Classical Mechanics in Physics.

Similar presentations

Ads by Google