A thin hoop of mass 3.8 kg and radius 0.5 m rolls down a ramp inclined...

A very thin circular hoop of mass m and radius r rolls without slipping down a...

A very thin circular hoop of mass m and radius r rolls without slipping down a ramp inclined at an angle θ with the horizontal, as shown in the figure. What is the acceleration a of the center of the hoop?

A circular hoop (?hoop ?? ) of mass ? 5.00 kg, radius ? 2.00 m, and...

A circular hoop (?hoop ?? ) of mass ? 5.00 kg, radius ? 2.00 m, and infinitesimal thickness rolls without slipping down a ramp inclined at an angle ? 32.0° with the horizontal. (a) Draw a free body diagram of the hoop. [1] (b) Determine the magnitude of the hoop’s acceleration down the ramp. [4] (c) Determine the force of static friction on the hoop. [3]

1. A uniform bar of length 4.7 m and mass 4.4 kg is attached to a...

1. A uniform bar of length 4.7 m and mass 4.4 kg is attached to a wall through a hinge mechanism which allows it to rotate freely. The other end of the bar is supported by a rope of length 5.6 m which is also connected to the wall. What is the tension in the rope in N? 2. A uniform bar of length 5 m and mass 4.2 kg is attached to a wall through a hinge mechanism which...

A solid, uniform disk of radius 0.250 m and mass 54.1 kg rolls down a ramp...

A solid, uniform disk of radius 0.250 m and mass 54.1 kg rolls down a ramp of length 3.80 m that makes an angle of 12.0° with the horizontal. The disk starts from rest from the top of the ramp. (a) Find the speed of the disk's center of mass when it reaches the bottom of the ramp. ___________m/s (b) Find the angular speed of the disk at the bottom of the ramp. ___________rad/s

The figure shows a rigid assembly of a thin hoop (of mass m = 0.23 kg...

The figure shows a rigid assembly of a thin hoop (of mass m = 0.23 kg and radius R = 0.16 m) and a thin radial rod (of length L = 2R and also of mass m = 0.23 kg). The assembly is upright, but we nudge it so that it rotates around a horizontal axis in the plane of the rod and hoop, through the lower end of the rod. Assuming that the energy given to the assembly in...

An earthball with a mass of 125 kg and a radius of 1.5 m rolls down...

An earthball with a mass of 125 kg and a radius of 1.5 m rolls down a regular hill. The hill is 60 meters high and inclined at 15 degrees to the vertical. How fast is the ball moving at the bottom of the hill? At the bottom of the hill is an ice covered ramp. The ball begins to go up the frictionless ice ramp. What is the maximum height up the ramp that the ball reaches?

An earthball with a mass of 120 kg and a radius of 1.5 m rolls down...

An earthball with a mass of 120 kg and a radius of 1.5 m rolls down a regular hill. The hill is 60 meters high and inclined at 15 degrees to the vertical. a) How fast is the ball moving at the bottom of the hill? b) At the bottom of the hill is an ice covered ramp. The ball begins to go up the frictionless ice ramp. What is the maximum height up the ramp that the ball reaches?

Beginning from rest, an object of mass 200 kg slides down a 9-m-long ramp. The ramp...

Beginning from rest, an object of mass 200 kg slides down a 9-m-long ramp. The ramp is inclined at an angle of 20o from the horizontal. Air resistance and friction between the object and the ramp are negligible. Let g = 9.81 m/s2. Determine the kinetic energy of the object, in kJ, and the velocity of the object, in m/s, at the bottom of the ramp.

Problem 4 A hoop and a solid disk both with Mass (M=0.5 kg) and radius (R=...

Problem 4 A hoop and a solid disk both with Mass (M=0.5 kg) and radius (R= 0.5 m) are placed at the top of an incline at height (h= 10.0 m). The objects are released from rest and rolls down without slipping. a) The solid disk reaches to the bottom of the inclined plane before the hoop. explain why? b) Calculate the rotational inertia (moment of inertia) for the hoop. c) Calculate the rotational inertia (moment of inertia) for the...

A 320-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that...

A 320-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that is inclined at 34° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest?