PHYS-100: Advanced physics I (mechanics)

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Lectures in this course (109)

Advanced Physics I: Angular Momentum

Explores angular momentum, central forces, and gravitational theory, including Kepler's laws and Newton's approach.

Forced Oscillations and Resonance

Explores forced oscillations, resonance, and damped oscillations in advanced physics.

Advanced Physics I: Oscillations and Kepler's Laws

Covers angular momentum, gravitational force, oscillations, and Kepler's laws.

Non-Harmonic Oscillators: Dynamics and Resonance

Explores non-harmonic oscillators dynamics, including forced oscillations and damped oscillations.

Advanced Physics I: Kepler's Laws and Orbital Mechanics

Covers advanced physics topics including angular momentum, gravitational forces, and Kepler's laws.

Oscillations and Equilibrium

Explores oscillations, equilibrium, forces, resonance, and conservation of energy in mechanical systems.

Advanced Physics I: Oscillations and Dynamics

Covers advanced topics in physics, focusing on oscillators and dynamics.

Forced Oscillations in Damped Systems

Explores forced oscillations in damped systems, emphasizing energy injection and oscillation evolution.

Advanced Physics I: Laws of Transformation of Speeds and Accelerations

Explores laws of speed and acceleration transformation, simple dynamics, and angular rotation in physics.

Terrestrial Dynamics

Explores terrestrial dynamics, including laws of transformation, pendulum dynamics, and gravity field applications.

Resonance in Physics

Delves into resonance in physics, highlighting the impact of damping on oscillations and showcasing real-life examples like the Tacoma Bridge collapse.

Advanced Physics I: Oscillations and Rotating Frames

Explores oscillations in rotating frames and motion on inclined planes and carousels.

Coupled Oscillators: General Solutions

Explores general solutions for coupled oscillators, focusing on single and N harmonic oscillators, eigenmodes, and initial conditions.

Fusion Energy: Physics of Tokamaks

Covers the physics of tokamaks and the ITER Project for sustainable fusion energy production.

Advanced Physics I

Covers harmonic oscillators, damped oscillations, forced oscillations, and dynamics in non-inertial reference frames.

Dynamics in Non-Inertial Frames

Covers dynamics in non-inertial frames, including velocity and acceleration transformations and the concept of apparent forces.

Advanced Physics I: Angular Momentum and Energy

Explores angular momentum, energy, and friction in particle systems and analyzes the dynamics of a motorcycle system.

Fusion Energy: ITER Project Overview

Introduces fusion energy and the ITER Project, discussing technical challenges, physics of tokamaks, and experimental challenges.

Dynamics in Non-Inertial Frames

Covers dynamics in non-inertial frames, including transformation laws, Coriolis force, and examples of dynamic systems.

Variable Mass Systems

Covers rotation, energy, shocks, and variable mass systems in advanced physics.

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