A ball of mass 0.1 kg is sliding inward through a smooth hollow tube, which is driven at a constant counterclockwise angular velocity of 3 rad/s about an axis through point O. When e = 30°, the speed of the ball is 1.8 m/s relative to the tube. Determine the magnitude of the force (N) provided by the tube wall on the ball. Neglect all friction. Ꮎ
A ball of mass 0.1 kg is sliding inward through a smooth hollow tube, which is driven at a constant counterclockwise angular velocity of 3 rad/s about an axis through point O. When e = 30°, the speed of the ball is 1.8 m/s relative to the tube. Determine the magnitude of the force (N) provided by the tube wall on the ball. Neglect all friction. Ꮎ
Related questions
Question

Transcribed Image Text:A ball of mass 0.1 kg is sliding inward through a smooth hollow tube, which is driven at a
constant counterclockwise angular velocity of 3 rad/s about an axis through point O. When e
= 30°, the speed of the ball is 1.8 m/s relative to the tube. Determine the magnitude of the
force (N) provided by the tube wall on the ball. Neglect all friction.
Ꮎ
Expert Solution

This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps with 2 images
