Universal Gravitation

DoNow: A student rests on a rotatable stool. The stool-student system has a moment of inertia of 4.625 kg m^2. A 1.5 kg ball moving at 2.6 m/s is caught by the resting student at a distance 0.5 m away from the axis of rotation and tangent to the moment arm of the student.
(a) What happens to the student in the stool? Explain in terms of motion and momentum.
(b) Determine the initial angular momentum of the student-stool and ball.
(c) Determine the moment of inertia for the student-stool-ball.
(d) Determine the angular speed of the student-stool-ball system after the catch.
(e) Determine the torque on the student-stool if the collision lasted 2 ms.
(notes)

AIM: I can describe the angular momentum of rotation systems and the conservation of momentum in rotation systems using concepts of moment of inertia, angular velocity, torque and angular acceleration.

Activities:
- Submit 'bout That Radius HW
- Tableshare 'bout That Moment HW; ...think about Rotational Force?
- Color Review Rotating Mass Investigation Draft CER
- Universal Gravitation (notes)
- Universal Gravitation New Moon Whiteboard
- All Twisted Up HW

Textbook Review: Ch 12.1-.2

Homework:
Complete All Twisted Up HW, 'bout That Moment HW, Rotating Mass Investigation Final CER; ...think about Rotational Force?

Coming Up:
Period of Repetition
Semester Photo Project, Photo 2, Due: Tue., 23Feb16
Torque TEST, Dun-dun-DUUUN!