![Weak measurements [1] Pre and Post selection in strong measurements](http://s1.studyres.com/store/data/008913441_1-7a0f5f5a1778eb5da686e2de8a47882f-300x300.png)
pp\momentum - Dr. Robert MacKay
... Conservation of Momentum Collisions Explosions Elastic Collisions ...
... Conservation of Momentum Collisions Explosions Elastic Collisions ...
Collisions and rotational kinematics
... Early in the semester, we dealt with kinematics which involved displacement, velocity, and acceleration. Angular kinematics is the same thing but for objects which are rotating (rather than translating). For something to rotate, it must have an axis about which it rotates like the axle for a wheel. ...
... Early in the semester, we dealt with kinematics which involved displacement, velocity, and acceleration. Angular kinematics is the same thing but for objects which are rotating (rather than translating). For something to rotate, it must have an axis about which it rotates like the axle for a wheel. ...
Momentum - USU Physics
... • If objects bounce off one another rather than sticking together, less energy is lost in the collision. • Bouncing objects are called either “elastic” or “partially inelastic”. The distinction is based on energy. Elastic Collisions: • No energy is lost in an elastic collision. E.g. A ball bouncin ...
... • If objects bounce off one another rather than sticking together, less energy is lost in the collision. • Bouncing objects are called either “elastic” or “partially inelastic”. The distinction is based on energy. Elastic Collisions: • No energy is lost in an elastic collision. E.g. A ball bouncin ...
Chapter 10 Rotational Motion
... 10-5 Rotational Dynamics; Torque and Rotational Inertia The quantity is called the rotational inertia of an object with respect to a specific axis. The distribution of mass matters here—these two objects have the same mass, but the one on the left has a greater rotational inertia, as so much of its ...
... 10-5 Rotational Dynamics; Torque and Rotational Inertia The quantity is called the rotational inertia of an object with respect to a specific axis. The distribution of mass matters here—these two objects have the same mass, but the one on the left has a greater rotational inertia, as so much of its ...