Rotation in Two Dimensions

Related lectures (32)

Page 2 of 4

Covers the concept of rotation, modification, quantity, inertia, and conservation of angular momentum in solid bodies.

Explores angular momentum conservation and its applications in rotational motion, including Kepler's laws and torque relationships.

Covers angular momentum, Kepler's laws, and conservation principles in rotational motion and planetary dynamics.

Explores rotational motion, moment of inertia, torque, and static equilibrium in rigid bodies.

Explains angular momentum for rotating solids and discusses symmetry in mass distribution.

Discusses the dynamics of a bowling ball on various surfaces and the application of physics principles to real-world scenarios.

Explains rotational motion, moments of inertia, and theorems of König.

Discusses moment of inertia, angular momentum, and the Atwood machine problem.

Explores the bounce of two balls, an oscillating rolling cylinder, and the ballistic pendulum concept in solid body physics.

Covers torque force, angular momentum theorem, gyroscopic effects, and procession of the earth's axis.