Lectures related to Conservation of Mechanical Energy: Stability and Equilibria

Mechanical Energy: Equilibrium and Oscillations

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

Mechanics: Work, Power, Energy, Equilibrium

Covers the concepts of work, power, energy, equilibrium, and stability in mechanics.

Equilibrium Points and Stability

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

General Physics: Mechanics for SIE and GC

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

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.

Conservation of Mechanical Energy

Explores the conservation of mechanical energy, equilibrium stability, and phase portraits.

Mechanics: Equilibrium Points and Stability

Explores equilibrium points and stability in mechanical systems, analyzing how systems return to or move away from their positions after disturbances.

Conservation of Mechanical Energy: Systems with Conservative Forces

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

Dynamical Systems: Equilibrium Points and Stability

Covers dynamical systems, equilibrium points, stability analysis, and phase plots using examples like the pendulum system.

Mechanical Energy Conservation

Explores mechanical energy conservation, harmonic oscillators, and equilibrium in mechanical systems.

Oscillateur Harmonique: Potentiel et Orbites

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

Conservation of Energy and Force Potential

Explores kinetic energy, work, force potential, and equilibrium stability in mechanics, emphasizing energy conservation and force impact on systems.

Structural Mechanics Principles: Equilibrium and Stability

Explores the principles of structural mechanics, including internal loads, equilibrium stability, and the superposition principle.

Mechanical Energy Conservation

Covers the concept of mechanical energy conservation and angular momentum in different systems.

Introduction to Dynamical System

Introduces dynamical systems, equilibrium points, stability, vector fields, phase plots, and Lyapunov stability.

Potential Energy, Mechanical Energy, and Resonance

Explores potential energy, mechanical energy, and resonance in mechanical systems, including conservative forces and energy transformation.

Mathematical Modeling in Chemistry and Biology

Covers mathematical modeling in chemistry and biology, including chemical reactions, enzymatic kinetics, and population dynamics.

Virtual Work in Structural Mechanics

Explores virtual work in structural mechanics, stability criteria, reaction load calculations, and mechanical systems with springs.

Potential Energy, Mechanical Energy, and Resonance

Explores potential energy, mechanical energy, and resonance in mechanical systems, including equilibrium, stability, and energy transformation.

Conservation of Energy: Pendulum Example

Explores the conservation of energy using a simple pendulum example and discusses various forms of energy.