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Electrodynamics Challenges: Space-Time and Relativity
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Related lectures (31)
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Uniform Rotation and Inertial Reference Frames
Covers examples of uniform rotation, inertial frames, forces in acceleration, and Newton's laws.
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.
Symmetry in Quantum Field Theory
Explores associativity, Lie algebra, Lie groups, relativity, and symmetry preservation in quantum field theory.
Relativity of Simultaneity and Time Dilation
Explores relativity of simultaneity, time dilation, and distance contraction in different frames of reference.
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.
Inertial Forces and Reference Frames
Explores inertial forces, reference frames, Newton's laws, and apparent weight in an accelerated elevator.
Newton's Laws: Motion Study
Explores motion study in different reference frames, focusing on Galileo's transformation and Newton's laws.
Maxwell's Equations: Polarizable Matter
Explores Maxwell's equations in polarizable matter, including integral and differential forms, considerations for dielectric and magnetic materials, and the importance of a relativistic approach.
Special Relativity: The Mystery of Muons
Explores special relativity and the mystery of muons, including their generation and detection.
