Lectures related to Mathematical Description of Mechanical Systems

General Physics I: Mechanics

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

Quantum Mechanics: Schrödinger Equation vs. Hamiltonian Operator

Explores the Schrödinger equation and Hamiltonian operator in Quantum Mechanics.

Material Point Model: Basics

Covers the material point model, initial conditions, and Newton's laws in physics.

Projectile Motion: Friction Effects

Explores projectile motion with friction effects and dynamics of polar expeditions.

Newton's Laws: Harmonic Oscillator

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

Central Motion: Forces and Kinetics

Explores the moment of a force, angular momentum, and central motion, including historical perspectives and mathematical representations.

Simple Pendulum and Harmonic Oscillator

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

Q&A Session: System Design, Law of Motion, Parasitic Blade Movement

Covers system design, law of motion, and parasitic blade movement.

Newton and Ballistics: Demonstrations and Laws

Explores Newtonian physics, ballistics laws, and angular momentum principles in motion analysis.

Circular Motion and Harmonic Oscillator

Explores circular motion, harmonic oscillators, and double springs, elucidating the physics principles behind them.

Two-Body Problem: Center of Mass and Forces

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

Newton's Laws and Forces

Explores Newton's laws of motion, emphasizing inertia, force, and acceleration, with a focus on empirical forces and experimental verification.

Newton's Laws: Motion and Forces

Introduces Newton's laws of motion, explaining motion description and force interactions through practical examples.

Dynamics: Laws of Motion

Explains the laws of motion, forces, and acceleration in dynamics.

Dynamic Balancing in Mechanisms

Explores dynamic compensation, reduced mass, and maximum acceleration in mechanisms, along with the sizing of flexible guides and technological limits.

Constraints, Power, Work, and Kinetic Energy

Covers geometric constraints, power, work, and kinetic energy with examples and equations.

Atomism: From Presocratics to Newton

Explores the concept of atomism from ancient philosophers to modern physics, covering fundamental ontology and laws of particle interaction.

General Physics: Mechanics

Explores the concept of center of mass and its significance in simplifying the analysis of material points and solids.

Newtonian Dynamics: Laws and Applications

Explores Newton's laws, circular motion, and coordinate systems in dynamics.

History of Mechanics

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