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Lecture
Physics Problem Solving: Strategies and Examples
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Related lectures (29)
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Galilean Transformations
Explains Galilean transformations, inertial reference frames, and Newton's first law of motion in classical mechanics.
Kinematics: Reference Frames and Coordinates
Introduces kinematics, reference frames, trajectories, and coordinates in physics, emphasizing their importance in analyzing object motion.
Example: Weight Variation
Covers weight variation in different scenarios and forces in different reference frames.
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.
Material Point Model: Basics
Covers the material point model, initial conditions, and Newton's laws in physics.
Kinematics: Reference Frames and Coordinates
Introduces reference frames, coordinates, point mass, trajectory, velocity, acceleration, and motion with constant acceleration.
Newton's Laws of Motion
Explores Newton's laws of motion, covering momentum, forces, conservation principles, and reference frame applications.
Newton's Laws of Motion
Introduces Newtonian mechanics, explaining mass, inertia, forces, and motion principles.
Kinetic Energy
Covers the concept of kinetic energy and its practical applications in physics.
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.
