Class Notes of previous years
2005 Kol תשס"ו
1. Introduction
2-3. Vectors
4. Kinematics
5-8. Laws of motion
9. Conservation laws 1: momentum
10. Conservation 2: energy (1d)
11. Conservation 3: work, power, machines
12.Conservation 4: collisions
13-4.Conservation 5-6: conservative forces
- includes the conditions for a force to be conservative
15.Conservation 7: angular momentum
16-7.Oscillator 1-2: basics
18. Oscillator 3: complex numbers
19-21. Oscillator 4-6: damping and forcing
22-24. Kepler problem 1-3
(version2 - small corrections)
25-26 Midterm (and preparation)
27-28. Reference frames
"On the electrodynamics of moving bodies"
29-31. Rigid body
32-36. Relativity: kinematics
37-39. Relativity: dymanics
40 Outlook
41-42 Review
תוכנית לימודים מוצעת לבוגר בפיזיקה
2004 Shaviv תשס"ה
Part 0: Background
(pdf)
Part 1: Mathematical Background (vectors, scalar product)
(pdf)
Part 2: Mathematical Background (vector product, derivatives)
(pdf)
Part 3: Mathematical Background (Coordinate systems, derivatives in polar coor.)
(pdf)
Part 4: Newton's Laws and Motion in gravitational field
(pdf)
Part 5: More on Motion and Newton's laws
(pdf)
Part 6: Conservation of Momentum, Energy in 1D
(pdf)
Part 7: Conservative Forces
(pdf)
Parts 1-7
(pdf vs. 4)
Part 8: Conservative and non conservative forces, central potential
(pdf)
Part 9: Friction and Harmonic Potential
(pdf)
Part 10: Momentum Conservations: Collisions
(pdf)
Part 11: The Rocket Problem
(pdf)
Part 12: C.M. System and Angular Momentum
(pdf)
Part 13: Kepler Problem (part 1)
(pdf)
Part 14: Kepler Problem (part 2)
(pdf)
Part 15: Harmonic Oscillator (part 1)
(pdf)
Part 16: Harmonic Oscillator (part 2)
(pdf)
Part 17: Harmonic Oscillator (part 3)
(pdf)
Parts 8-17 combined
(pdf vs. 4)
Part 18: Complex Numbers
(pdf)
Part 19: Harmonic Oscillator (part 4)
(pdf)
Part 20: Harmonic Oscillator: Two mass problem
(pdf)
Part 21: Inertial and Non-Inertial Frames, Coriolis
(pdf)
Part 22: Rotation about fixed axis, Moment of Inertia
(pdf)
Part 23: Rotation about fixed axis, Examples
(pdf)
Part 24: Rotation about a varying axis. Gyros, Euler's Equations
(pdf)
Part 25: Special Relativity: Background
(pdf)
Part 26: The Lorentz Transformation
(pdf)
Part 27: Examples of Lorentz I: Length shortening, Velocity transformations
(pdf)
Part 28: Examples of Lorentz II: Time Dilation, Aberration
(pdf)
Part 29: Relativistic Dynamics I (Momentum, Energy, Mass)
(pdf)
Parts 18-29 combined
(pdf vs. 5)
Part 30: Relativistic Dynamics II (Force, examples).
Part 31: Twin Paradox and Equivalence Principle
All Lectures Combined (pdf vs. 5, 14MB, 182 pages)
Just the title page
This line was last updated January 15, 2005
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