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Moving magnet and conductor problem
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Related lectures (18)
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Maxwell's Equations and Induction Phenomenon
Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.
Galilean Transformations: Spacetime and Measurements
Explores Galilean transformations in spacetime, focusing on measurements and coordinate transformations.
Symmetries of Navier-Stokes Equations
Explores the symmetries of Navier-Stokes equations, including dynamics preservation and periodic boundary conditions.
Lorentz Transformations: Limits and Applications
Explores Lorentz transformations, Galilean limits, speed of light, plasma diagnostics, and high-temperature gas behavior.
Magnetic Moments and Field Lines: Equivalence and Induction
Explores magnetic dipole, field lines, and induction by moving charges.
Hydrodynamic Models: Machine Learning for Kinetic Equations
Delves into uniformly accurate hydrodynamic models for kinetic equations using machine learning, covering Boltzmann equation, moment methods, and numerical results.
Terrestrial Dynamics
Explores terrestrial dynamics, including laws of transformation, pendulum dynamics, and gravity field applications.
Angular Momentum Balance in Continua
Explores stress tensor symmetry through angular momentum balance in continua, covering topics like energy conservation and constitutive laws.
Uniform Rotation and Inertial Reference Frames
Covers examples of uniform rotation, inertial frames, forces in acceleration, and Newton's laws.
Special Relativity: Lorentz Transformations
Explores special relativity, Lorentz transformations, time dilation, and the constancy of the speed of light.
Galilean Transformation: Examples
Covers the Galilean transformation with examples of uniform circular motion and airplane motion with lateral wind.
Galilean Transformations
Explains Galilean transformations, inertial reference frames, and Newton's first law of motion in classical mechanics.
Mechanics: Galilean Transformation
Explores the Galilean transformation, inertial reference frames, extensive and intensive quantities, and Newton's laws in mechanics.
Frames of Reference: Physics 1
Covers frames of reference in physics, emphasizing the importance of choosing a reference frame and the laws of physics in different frames.
Electric Fields: Influence and Conductors
Explores electric fields in electrostatics, focusing on charge influence and conductors.
Dynamics in Non-Inertial Frames
Explores dynamics in non-inertial frames, including Coriolis force and transformation of velocities and accelerations.
Dynamics in Non-Inertial Frames
Covers dynamics in non-inertial frames, including transformation laws, Coriolis force, and examples of dynamic systems.
Pressure Forces and Curvilinear Abscissa
Covers pressure forces, mmHg unit, and curvilinear abscissa in a moving frame.
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