A small metal sphere of mass m is released from rest at point A and slides without
A
friction down a smooth track as shown to the right.  At point B it enters at the
bottom of a part of the track that is a vertical circle of radius R.  Point D is at the
top of the circular portion of the track, and point C is halfway from B to D.  The
ball slides completely around the circular portion of the track, just barely keeping
contact with the track at point D.  Answer the following in terms of m, R and g.
A)  What is the speed of the ball at point D if it is just barely in contact with the track?
B)  Find the speed of the ball at point B.
C)  Find the speed of the ball at point C.
D)  Find the height above B at which the ball was released from rest.
E)  Find the normal force of the track on the ball at point B.
F)  Find the normal force of the track on the ball at point C.

Transcribed Image Text:

The image shows a mechanical representation of a spiral path: - **Diagram Explanation**: - The spiral starts at point **A** and winds inward. - Label **B** is positioned at a lower section of the spiral, indicating the path’s continuation. - **C** is located further along near the center, suggesting a point close to one of the final curves. - **D** is inside the spiral loop, pointing out an internal point on the spiral path. - An arrow labeled **R** is drawn from the center towards a point on the spiral, possibly indicating the radius or a significant measurement within the spiral configuration. This diagram can help visualize paths and measurements in mechanical or physics-related contexts, such as pendulum motion or spiral springs.