Lectures related to General Physics: Mechanics

Two-Body Problem: Center of Mass and Forces

Discusses the two-body problem, center of mass, forces, and Newton's laws.

Geometric Locus and Mechanics

Covers geometric locus, cone sections, Kepler's problem, Newton's laws, and conservation laws.

Mechanics: Forces and Motion

Covers the fundamental concepts of mechanics, focusing on forces and motion.

Newton's Laws: Harmonic Oscillator

Covers the application of Newton's laws to harmonic oscillators with damping.

General Physics I: Mechanics

Introduces fundamental concepts of general physics, focusing on mechanics and problem-solving skills.

Mechanics: Newton's Laws and Center of Mass

Covers Newton's laws, center of mass, conservation laws, and transfer theorem for angular momentum.

Action-Reaction Law, Collisions

Explores perfectly inelastic collisions, momentum balance, kinetic energy dissipation, elastic collisions, and the two-body problem.

History of Mechanics

Explores the historical works of Galileo and Newton in the field of mechanics.

History of Mechanics

Covers the history and methodology of mechanics from Aristotle to Newton.

Center of Mass: Properties and Theorems

Covers the center of mass properties, Newton's laws, and their applications in physics.

Mechanics: Introduction and Calculus

Introduces mechanics, differential and vector calculus, and historical perspectives from Aristotle to Newton.

Plasma Collisions: Coulomb Force

Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.

Introduction to Mechanics: Historical Overview and Fundamentals

Provides an overview of the historical development and fundamental concepts in mechanics, emphasizing the interplay between potential and kinetic energy.

Modeling Diatomic Molecules: Mechanics

Covers the modeling of diatomic molecules using springs and focuses on the movement of the center of mass and relative motion.

Trajectory Determination in Mechanics

Explains trajectory determination in mechanics, including types of trajectories and effective potential, with practical examples.

Simple Pendulum and Harmonic Oscillator

Explores the dynamics of a simple pendulum and harmonic oscillator, including Hooke's Law and equations of motion.

Mechanics: System of Point Masses

Introduces mechanics concepts for systems of point masses, including moment of forces and kinetic energy conservation.

Forces and Energy: Constraints, Power, Work, and Kinetic Energy

Discusses constraints, power, work, and kinetic energy in mechanics, focusing on practical examples like a metronome and a conical pendulum.

Dynamics: Archimedes' Principle

Explains Newton's laws, momentum, and Archimedes' principle, illustrating how objects float or sink in fluids.

Newtonian Mechanics: Fundamentals and Applications

Introduces Newtonian mechanics, covering reference frames, laws of motion, and projectile motion.