Lectures related to Dynamics of Earth: Inertial Frames and Reference Systems

Covers dynamics in non-inertial frames, including transformation laws, Coriolis force, and examples of dynamic systems.

Explores the Coriolis effect, explaining forces and deviations in trajectories due to Earth's rotation.

Non-inertial Reference Frames and Constraints

Covers non-inertial reference frames, constraints, and continuous systems, including angular velocity, linear and rotational acceleration, and modeling of merry-go-rounds, ropes, and pulleys.

Mechanics: Inertial and Non-Inertial Frames

Explores mechanics in inertial and non-inertial frames, covering forces, Coriolis effect, and Poisson formula.

General Physics: Angular Momentum of a Thin Disk

Explains the calculation of angular momentum of a thin disk and forces in an accelerated frame.

Dynamics in Non-Inertial Frames

Explores dynamics in non-inertial frames, including Coriolis force and transformation of velocities and accelerations.

Angular Momentum: Earth Dynamics

Explores angular momentum, center of mass movement, and Coriolis force impact on Earth's dynamics.

Earth Dynamics: Center of Mass Movement

Covers advanced physics topics related to Earth dynamics and the Foucault pendulum experiment.

Changes of Reference Frames: Deriving Formulas and Applications

Covers the derivation of formulas for velocity and acceleration changes when switching frames, with practical examples like the Foucault pendulum.

Uniform Rectilinear Motion: Carousel

Explores uniform rectilinear motion on a carousel, including coriolis force and inertial forces.

Inertial Forces and Reference Frames

Explores inertial forces, reference frames, Newton's laws, and apparent weight in an accelerated elevator.

Rolling and review

Covers pure rotation, rolling without slipping, pendulum motion, and continuous systems.

Newton's Laws: Fundamentals

Explores Newton's laws of motion, fundamental forces in nature, and the unification of interactions.

Circular Motion: Reference Frames and Accelerations

Explores circular motion reference frames, accelerations, and trajectory equations.

Rotation in Two Dimensions

Explores rotation in two dimensions, covering vector products, angular momentum, and kinetic energy of solids.

Gyroscopic Effects and Conservation of Moment

Explores gyroscopic effects, conservation of moment, and dynamics of solid bodies, including inertia tensors and angular momentum.

Non-inertial Reference Frames & Constraints

Covers forces in non-inertial reference frames, constraints, and the use of pulleys and ropes.

Physics Exercises and Rotations Interpretation

Covers physics exercises, rotations, and constraint forces in various physical scenarios.

Forces in Accelerated Frames

Explores mechanics in accelerated frames, emphasizing inertial forces and their effects on motion.

Dynamics in Accelerated Frames: Coriolis Force

Explores dynamics in accelerated frames, emphasizing the Coriolis force's effects on moving objects and weather systems.