A spherical glass bead of mass M and radius R is released from rest at the top of an inclined track (angle  with the horizontal) that ends in a curved section of radius r. The glass bead rolls down the incline without slipping; there is friction between the ramp and the glass bead. The moment of inertia of the glass bead is I = 2/5 MR2 Draw a force diagram for the glass bead on the ramp. Label all forces clearly Determine the linear acceleration of the marble when it is rolling down the incline. Your answer will be in terms of theta and g

A spherical glass bead of mass M and radius R is released from rest at the top of an inclined track (angle  with the horizontal) that ends in a curved section of radius r. The glass bead rolls down the incline without slipping; there is friction between the ramp and the glass bead. The moment of inertia of the glass bead is I = 2/5 MR2 Draw a force diagram for the glass bead on the ramp. Label all forces clearly Determine the linear acceleration of the marble when it is rolling down the incline. Your answer will be in terms of theta and g

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