Lectures related to Forced Oscillator: Transient Regime Analysis

Explores the one-dimensional harmonic oscillator, equilibrium positions, and forced oscillators with external forces.

Covers separable differential equations of order 1, defining separable equations and providing examples.

Differential Equations: General Solutions and Methods

Covers solving linear inhomogeneous differential equations and finding their general solutions using the method of variation of constants.

Forced Harmonic Oscillator: Resonance

Explores the forced harmonic oscillator, damping, and resonance phenomenon, focusing on the amplitude of oscillations in resonance.

Oscillations libres, ressort

Explores free undamped oscillations in a harmonic oscillator and their graphical representation over time.

Harmonic Oscillator II: Damped, Forced, Beats, Resonance

Explores stability, resonance, damping effects, and forced oscillations in harmonic systems.

Ordinary Differential Equations: Second Order Linear Inhomogeneous

Covers the resolution of second-order linear ordinary differential equations with constant coefficients and a source term.

General Solutions of Differential Equations

Explores general solutions of differential equations with a focus on x

Linear Differential Equations

Explores linear differential equations, including higher-order linear homogeneous equations and equations with constant coefficients.

Population Growth and Temperature Variation

Explores population growth models and temperature variation equations, focusing on differential equations and solution methods.

Differential Equations in Motion

Explores differential equations for motion, including critical damping and damped oscillators, with applications in complex numbers and examples of mass-spring systems.

Harmonic Oscillators: Equations, Damping, and Resonance

Explores harmonic oscillators, damping effects, forced oscillations, and resonance phenomena in various systems.

Forced Oscillations: Derivation

Covers the derivation of forced oscillations in an harmonic oscillator.

Solving Separable Equations

Covers the method for solving separable equations and linear homogeneous equations, as well as a simple population growth model.

General Solutions of Differential Equations

Explores general solutions of differential equations, emphasizing homogeneous and inhomogeneous equations and the process of finding solutions.

Differential Equations: Speed Variation Analysis

Covers the analysis of speed variation using differential equations and small time intervals.

Mathematical Methods: Oscillations and Energy Transfer

Discusses oscillations, energy transfer, and the Green function in physics.

Linear Differential Equations

Covers linear differential equations of order n with constant coefficients and how to find their general solutions.

Linear Differential Equations: Homogeneous and Separable

Covers linear differential equations of order 1, focusing on homogeneous and separable equations.

Gyroscopes and Harmonic Motion

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