PX155 - 0 - classical mechanics and special relativity

image: Romain Courtois

PX155 - classical mechanics - summary

classical mechanics

A - foundations of classical mechanics

PX155 - A1 - newton's first law
PX155 - A2 - newton's second law
PX155 - A3 - newton's third law
PX155 - A4 - scalars and vectors
PX155 - A5 - static and dynamic friction
PX155 - A6 - block on a slope
PX155 - A7 - gravitational force

B - systems of particles and acceleration

PX155 - B1 - systems of particles I
PX155 - B2 - continuous bodies
PX155 - B3 - forces out of balance
PX155 - B4 - equations of motion

C - work and energy

PX155 - C1 - work and kinetic energy
PX155 - C2 - conservative forces, potential energy
PX155 - C3 - gravitational potential energy
PX155 - C4 - using energy conservation
PX155 - C5 - power

D - simple harmonic motion

PX155 - D1 & D2 - oscillations & mass on a spring
PX155 - D3 - solving the SHM equation
PX155 - D4 - initial conditions
PX155 - D5 - energy and SHM
PX155 - D6 - SHM and complex exponentials
PX155 - D7 - damped oscillations
PX155 - D8 - 3 regimes of damping
PX155 - D9 - driven damped simple harmonic motion
PX155 - D10 - pendulums and SHM

E - circular motion, rotation of bodies

PX155 - E1 - circular motion
PX155 - E2 - angular velocity vector
PX155 - E3 - circular motion and rolling
PX155 - E4 - centripetal acceleration
PX155 - E5 - moments
PX155 - E7 - back to levers
PX155 - E6 - system of particles II
PX155 - E8 - angular momentum of a particle moving in a circle
PX155 - E9 - orbital angular momentum
PX155 - E10 - systems of particles III
PX155 - E11 - moment of inertia for continuous rigid bodies
PX155 - E12 - example of moments of intertia
PX155 - E13 - cylinder rolling down a slope
PX155 - E14 - parallel axis theorem
PX155 - E15 - the compound pendulum
PX155 - E16 - using conservation of momentum

F - collisions

PX155 - F1 - collisions in 1D
PX155 - F2 - collisions in 3D

special relativity

G - foundations of special relativity

PX155 - G1 - gallilean transforms
PX155 - G2 - galilean invariance and light
PX155 - G3 - the postulates of special relativity
PX155 - G4 - relativity of simultaneity
PX155 - G5 - coordinate transforms

H - the lorentz transformation

PX155 - H1 - lorentz transformation
PX155 - H2 - length contraction
PX155 - H3 - time dilation
PX155 - H4 - relativistic doppler effect - seeing vs observing
PX155 - H5 - the twin paradox
PX155 - H6 - relativistic velocity addition

I - relativistic momentum, mass, and energy

PX155 - I1 - momentum
PX155 - I2 - relativistic momentum
PX155 - I3 - causality
PX155 - I4 - light cones
PX155 - I5 - relativistic kinetic energy
PX155 - I6 - mass, energy, and momentum
PX155 - I7 - massless particles
PX155 - I8 - particle accelerators
PX155 - I9 - how far could you go