Lectures related to Harmonic Oscillations and Equilibrium Points

Physics 1: Small Oscillations and Equilibrium Points

Explores small oscillations, equilibrium points, harmonic oscillators, and gravitational fields in physics, including historical perspectives on celestial movements.

Mechanical Energy: Equilibrium and Oscillations

Explores mechanical energy, equilibrium, and small oscillations in rectilinear motion.

Oscillateur Harmonique: Potentiel et Orbites

Explores harmonic oscillators, potential energy conservation, and stability around equilibrium points.

Conservation of Mechanical Energy

Explores the conservation of mechanical energy and its application in solving physics problems involving work, stability, and energy transformations.

General Physics: Mechanics for SIE and GC

Covers constraints, equilibrium points, and stability in mechanics using examples like pendulums.

Equilibrium Points and Stability

Explores equilibrium points and stability in mechanical systems with multiple degrees of freedom.

Harmonic Oscillations: Equilibrium and Stability

Delves into harmonic oscillations, equilibrium, stability, and natural frequency in physical systems.

Forced Harmonic Oscillator

Explores the forced and damped harmonic oscillator, focusing on resonance and initial conditions.

Conservation of Mechanical Energy: Systems with Conservative Forces

Explores the conservation of mechanical energy in systems with conservative forces and stability near equilibrium points.

Oscillations and Equilibrium

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

Potential Energy, Mechanical Energy, and Resonance

Covers equilibrium, stability, potential energy, mechanical energy, and resonance phenomena with practical examples.

Forced Harmonic Oscillator: Resonance Phenomenon

Covers the forced and damped harmonic oscillator, including the harmonic solution and resonance phenomenon.

LC Circuits: Magnetodynamics

Explores inductors' applications, LC circuit operation in radio clocks, energy oscillations, and harmonic oscillators.

The Mathematical Pendulum

Explores the mathematical pendulum, small oscillations, harmonic oscillator, and integration of the equation of motion.

Gyroscopes and Harmonic Motion

Explores gyroscopes, harmonic motion, energy of oscillation, and differential equations for oscillatory systems.

Harmonic Oscillator: Model & Energy

Explores the harmonic oscillator model, energy treatment, applications, and equations of motion.

Constraints, Power, Work, and Kinetic Energy

Covers geometric constraints, work, kinetic energy, and power, including force constraints and small oscillations.

Harmonic Oscillators: Energy and Motion

Explores harmonic oscillators, energy, and motion, emphasizing non-damped oscillations and conditions for harmonic motion.

Physics 1: Harmonic Oscillator and Spherical Coordinates

Explores harmonic oscillators, pendulum movement, and spherical coordinates in physics.

Gyroscopes and Harmonic Motion

Explores gyroscopes, harmonic motion, differential equations, damping effects, and resonance phenomena in oscillatory systems.