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Rotating Frame, Geodesics and Maxwell Equations
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Related lectures (30)
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Relative Movements and Gyroscopic Effects
Covers relative speed, Euler angles, and gyroscopic effects in rotating frames.
Coriolis Effect: Forces and Deviations
Explores the Coriolis effect, explaining forces and deviations in trajectories due to Earth's rotation.
Inertial Forces and Reference Frames
Explores inertial forces, reference frames, Newton's laws, and apparent weight in an accelerated elevator.
Electrodynamics: Coupling and Maxwell's Equations
Explores the coupling between electric and magnetic fields and Maxwell's equations in electrodynamics.
Dynamics in Non-Inertial Frames
Covers dynamics in non-inertial frames, including transformation laws, Coriolis force, and examples of dynamic systems.
Newton's Laws: Motion and Interaction
Explores Newton's laws of motion, inertia, force, momentum, and action-reaction principle, with practical examples.
Newton's Laws of Motion
Covers Newton's laws of motion, fundamental forces, inertia, frames of reference, and action-reaction pairs.
Uniform Rectilinear Motion: Carousel
Explores uniform rectilinear motion on a carousel, including coriolis force and inertial forces.
Description of motion of the magnetization
Explores the use of a rotating frame of reference in describing magnetization motion.
Dynamics of Spin in Time-Dependent Magnetic Field
Covers the dynamics of spin in a time-dependent magnetic field and the impact of time-independent fields on spin dynamics.
