Lectures related to Mechanics of Springs

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.

Newton's Laws: Harmonic Oscillator

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

Coordinate Systems: Polar, Cylindrical, Spherical

Covers position, velocity, and acceleration in polar, cylindrical, and spherical coordinate systems.

Central Motion: Trajectories and Energy

Explores central motion properties, energy conservation, and trajectory parameter determination based on mechanical energy and angular momentum.

Friction Models: Dry and Viscous

Explores dry and viscous friction models, Hooke's law, problem-solving strategies, and ballistic motion examples.

Mechanics: Introduction and Calculus

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

Mechanics: Geometric Constraints and Equilibrium Points

Explores generalized coordinates, constraints, equilibrium points, and stability in mechanics using elegant polar coordinates.

Equations of Motion and Stability

Explores equations of motion resolution, equilibrium points, and stability analysis through small perturbations in a mechanical system.

Newton's Laws: Inertia and Motion

Covers Newton's first and second laws, inertia, force, momentum, and action-reaction principle in mechanics.

Newton's Laws: Motion and Interaction

Explores Newton's laws of motion, inertia, force, momentum, and action-reaction principle, with practical examples.

Looping Mechanics: Energy and Stability

Explores the mechanics of a looping ramp, focusing on energy conservation and stability.

Ball Rolling on Hemisphere

Analyzes the motion of a ball on a hemisphere surface with forces and equations of motion.

Simple Pendulum: Constraints and Equations of Motion

Explores the analysis of a simple pendulum, discussing constraints, forces, and equilibrium points.

General Physics: Mechanics

Covers mechanics concepts in different coordinate systems, explaining position, velocity, and acceleration vectors.

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.

Ballistics with Friction: Mechanics

Covers the mechanics of ballistics with friction, focusing on the integration of equations to find the position and velocity of a projectile over time.

Circular Motion in a Train: Mechanics

Explores circular motion in a train, discussing position, velocity, and acceleration in different frames of reference.

Series Springs: Contact Hour 7

Covers the mechanics of series springs and the forces exerted by them.

Mechanics of Solids: Rotation and Equilibrium

Explores the mechanics of solids, emphasizing rotation and equilibrium principles.

Mechanics: Moments and Rotations

Covers the calculation of total forces moments and the concept of rigid bodies.