Please help with 2 either side of the pulley).2. A 200 g solid sphere of R= 25 cm radius and a 300 g solid cylinder of identical radius rollwithout slipping down a 30° slope, starting from a vertical height of 1.2 m. From the slide inclass, we know that the moment of inertia for a solid sphere rotating about its center is Is =(2/5)MR? and for a cylinder its le = (1/2)MR².a) Calculate the linear acceleration of each as they roll down the slope. Hint: there aretwo equations here: F = ma for motion parallel to the plane, where the forces arethe relevant component of gravity and the static friction of the plane acting on therim of the ball or cylinder, making it roll, and t = Ia, where the torque is provided bythat same static friction force. The linear acceleration a and the angular accelerationa are related, in the case for rolling without slipping, by a = Ra.b) Using conservation of energy, calculate for each of these objects their translationalspeed when they reach the bottom of the slope.c) Calculate the time required for each to reach the bottom.3. A 25 kg child stands 2.5 m from the center of a frictionless merry-go-round, which has a200 kg m2 moment of inertia and is spinning with one revolution every two seconds. The child

We know that A ms= 200 g solid sphere of R = 25 cm radius and a mc= 300 g solid cylinder of…

A 200 g solid sphere of R= 25 cm radius and a 300 g solid cylinder of identical radius vithout slipping down a 30° slope, starting from a vertical height of 1.2 m. From the sli class, we know that the moment of inertia for a solid sphere rotating about its center i: 2/5)MR? and for a cylinder its lc = (1/2)MR². a) Calculate the linear acceleration of each as they roll down the slope. Hint: there two equations here: F = ma for motion parallel to the plane, where the force: the relevant component of gravity and the static friction of the plane acting on rim of the ball or cylinder, making it roll, and t = Ia, where the torque is provide that same static friction force. The linear acceleration a and the angular accelera a are related, in the case for rolling without slipping, by a = Ra. %3D b) Using conservation of energy, calculate for each of these objects their translati speed when they reach the hottom of theslone

A 200 g solid sphere of R= 25 cm radius and a 300 g solid cylinder of identical radius vithout slipping down a 30° slope, starting from a vertical height of 1.2 m. From the sli class, we know that the moment of inertia for a solid sphere rotating about its center i: 2/5)MR? and for a cylinder its lc = (1/2)MR². a) Calculate the linear acceleration of each as they roll down the slope. Hint: there two equations here: F = ma for motion parallel to the plane, where the force: the relevant component of gravity and the static friction of the plane acting on rim of the ball or cylinder, making it roll, and t = Ia, where the torque is provide that same static friction force. The linear acceleration a and the angular accelera a are related, in the case for rolling without slipping, by a = Ra. %3D b) Using conservation of energy, calculate for each of these objects their translati speed when they reach the hottom of theslone

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter11: Angular Momentum

Section: Chapter Questions

Problem 59P: A bug of mass 0.020 kg is at rest on the edge of a solid cylindrical disk (M=0.10kg,R=0.10m)...

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