uniform, solid cylinder of radius 5.00 cm and mass 7.00 kg starts from rest at the top of an inclined plane that is 2.00 m long and tilted at an angle of 29.0" with the horizontal. The cylinder rolls without slipping down the ramp. What is the cylinder's speed v at the bottom of the ramp? U = m/s A bowling ball that has a radius of 11.0 cm and a mass of 6.50 kg rolls without slipping on a level lane at 6.00 rad/s. Calculate the ratio R of the translational kinetic energy to the rotational kinetic energy of the bowling ball. R=

icon
Related questions
Question
uniform, solid cylinder of radius 5.00 cm and mass 7.00 kg starts from rest at the top of an inclined plane that is 2.00 m long
and tilted at an angle of 29.0" with the horizontal. The cylinder rolls without slipping down the ramp.
What is the cylinder's speed v at the bottom of the ramp?
U =
m/s
Transcribed Image Text:uniform, solid cylinder of radius 5.00 cm and mass 7.00 kg starts from rest at the top of an inclined plane that is 2.00 m long and tilted at an angle of 29.0" with the horizontal. The cylinder rolls without slipping down the ramp. What is the cylinder's speed v at the bottom of the ramp? U = m/s
A bowling ball that has a radius of 11.0 cm and a mass of 6.50 kg rolls without slipping on a level lane at 6.00 rad/s.
Calculate the ratio R of the translational kinetic energy to the
rotational kinetic energy of the bowling ball.
R=
Transcribed Image Text:A bowling ball that has a radius of 11.0 cm and a mass of 6.50 kg rolls without slipping on a level lane at 6.00 rad/s. Calculate the ratio R of the translational kinetic energy to the rotational kinetic energy of the bowling ball. R=
Expert Solution
steps

Step by step

Solved in 2 steps with 9 images

Blurred answer