18 Lecture 18: Central forces and angular momentum
... to a plane. To see this observe that the angular momentum vector as defined in (303) is perpendicular to both the momentum and the position vectors. The momentum p(t) and position r(t) of the particle at a given time t define a plane, and L(t) is perpendicular to this plane. Because the vector L(t) ...
... to a plane. To see this observe that the angular momentum vector as defined in (303) is perpendicular to both the momentum and the position vectors. The momentum p(t) and position r(t) of the particle at a given time t define a plane, and L(t) is perpendicular to this plane. Because the vector L(t) ...
Solutions for class #1 from Yosunism website Problem 4.
... Kinematics with angular quantities is exactly like linear kinematics with (length to angle) (linear acceleration to angular acceleration) (linear velocity to angular velocity) (mass to moment of inertia) (force to torque). Thus, one transforms ...
... Kinematics with angular quantities is exactly like linear kinematics with (length to angle) (linear acceleration to angular acceleration) (linear velocity to angular velocity) (mass to moment of inertia) (force to torque). Thus, one transforms ...
Stampede Problem
... is similar to ours. Using Hodograph transformations, Whitham [7] finds that this has the solution ...
... is similar to ours. Using Hodograph transformations, Whitham [7] finds that this has the solution ...
