Homework Answers
Ans: (a) The sliding object reaches the bottom faster, but the increase in total kinetic energy is the same.
No energy is dissipated by static friction, so, if you consider a system that includes the Earth, the final kinetic energy just equals the initial potential energy, which is the same in both cases. However, the rolling object has to split this total kinetic energy into a translational part and a rotational part, so its translational kinetic energy has to be smaller than the sliding object’s, which means its center of mass moves more slowly.
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QUESTION 4 Compare the case of an object sliding down a ramp and the same object...
Rotational Energy 1. a) An object is rolling without slipping towards an inclined ramp. The object...
Rotational Energy 1. a) An object is rolling without slipping towards an inclined ramp. The object has a radius of 0.13 m, a mass of 1.2 kg, and is traveling with a speed of 1.5 m/s. When the object travels up the ramp, it reaches a maximum height of .43 m before it stops and then begins to roll back down the ramp. What is the moment of inertia of the object?
Consider two cylindrical objects of the same mass and radius. Object A is a solid cylinder, whereas object B is a hollow cylinder.
Problem 3: Consider two cylindrical objects of the same mass and radius. Object A is a solid cylinder, whereas object B is a hollow cylinder.Part (a) If these objects roll without slipping down a ramp, which one will reach the bottom of the ramp first? Part (b) How fast, in meters per second, is object A moving at the end of the ramp if it's mass is 210 g, it's radius 14 cm, and the height of the beginning of the ramp is 13.5...
A solid cylinder is released from rest and rolls without slipping down an inclined plane. A...
A solid cylinder is released from rest and rolls without slipping down an inclined plane. A block with the same mass slides down another inclined plane, which is identical to the first inclined plane except that it is frictionless. If both the block and cylinder are released from the same height and at the same time, М. M o the cylinder will reach the bottom first. o the cylinder will reach the bottom with a greater kinetic energy, neither object...
need answer to both pls A block slides down a smooth ramp (without friction) of height...
need answer to both pls
A block slides down a smooth ramp (without friction) of height h. The block started at rest. It reaches a speed v at the bottom of the ramp. What would the height of the ramp need to be to reach a speed of 2u? 3h 4h 2 h 1.41 h 6 h h 0/1 pts Question 2 A block slides down a rough ramp (with friction) of height h. The block started at rest. It...
Some curious students hold a rolling race by rolling four items down a steep hill. The...
Some curious students hold a rolling race by rolling four items down a steep hill. The four items are a solid homogeneous sphere, a thin spherical shell, a solid homogeneous cylinder and a hoop with all its mass concentrated on the hoop's perimeter. All of the objects have the same mass and start from rest. Assume that the objects roll without slipping and that air resistance and rolling resistance are negligible. For each statement below, select True or False. a)...
15. A frictionless sliding hockey puck and a rolling hoop both start from rest at the...
15. A frictionless sliding hockey puck and a rolling hoop both start from rest at the same initial height on the same side of a valley (same valley for both objects). Both objects have the same mass M. The hoop rolls without slipping. Assume no air resistance. The objects descend into the valley and then up onto the hillside on the right. Consider the following two statements: 1. The hoop has a greater maximum speed than the disk at the...
Points: 2 9) Two objects of unequal ad by a very light cord passing over delerates,...
Points: 2 9) Two objects of unequal ad by a very light cord passing over delerates, and friction is negligible an ideal pulley of negligible mass. When released, the systerm 9) Mand m (M m), are connected by a very lisgh ci t 一白 Which the two objects in the moving system? one of the following free-body diagrams most realistically represents the A) B) D) C) nt 0) Two objects have masses m and Sm, respectively. They both are placed...
Two packages at UPS start sliding down the 20∘ ramp. Package A has a mass of...
Two packages at UPS start sliding down the 20∘ ramp. Package A has a mass of 3.00 kg and a coefficient of kinetic friction of 0.220. Package B has a mass of 8.50 kg and a coefficient of kinetic friction of 0.170. Package A and B are touching and package A is closest to the bottom of the ramp. Package B pushes package A down the ramp. The distance from package A to the bottom of the ramp is 2...
A magnesium cylinder and a steel ring roll down a slope without slipping on the surface....
A magnesium cylinder and a steel ring roll down a slope without slipping on the surface. Both objects have the same mass and outside diameter. The moment of inertia of a cylinder is Icyl = m r2 and the moment of inertia of a ring is lring = m (r? + r?). Which object will reach the bottom first? A. The magnesium cylinder will reach the bottom first. B. The steel ring will reach the bottom first. C. They will...
= A magnesium cylinder and a steel ring roll down a slope without slipping on the...
= A magnesium cylinder and a steel ring roll down a slope without slipping on the surface. Both objects have the same mass and outside diameter. The moment of inertia of a cylinder is Icyl mra and the moment of inertia of a ring is Iring m (r2 + rî). Which object will reach the bottom first? 1 1 2 A. The magnesium cylinder will reach the bottom first. B. The steel ring will reach the bottom first. C. They...
Problem 3: Consider two cylindrical objects of the same mass and radius. Object A is a solid cylinder, whereas object B is a hollow cylinder.Part (a) If these objects roll without slipping down a ramp, which one will reach the bottom of the ramp first? Part (b) How fast, in meters per second, is object A moving at the end of the ramp if it's mass is 210 g, it's radius 14 cm, and the height of the beginning of the ramp is 13.5...
A solid cylinder is released from rest and rolls without slipping down an inclined plane. A block with the same mass slides down another inclined plane, which is identical to the first inclined plane except that it is frictionless. If both the block and cylinder are released from the same height and at the same time, М. M o the cylinder will reach the bottom first. o the cylinder will reach the bottom with a greater kinetic energy, neither object...
need answer to both pls
A block slides down a smooth ramp (without friction) of height h. The block started at rest. It reaches a speed v at the bottom of the ramp. What would the height of the ramp need to be to reach a speed of 2u? 3h 4h 2 h 1.41 h 6 h h 0/1 pts Question 2 A block slides down a rough ramp (with friction) of height h. The block started at rest. It...
15. A frictionless sliding hockey puck and a rolling hoop both start from rest at the same initial height on the same side of a valley (same valley for both objects). Both objects have the same mass M. The hoop rolls without slipping. Assume no air resistance. The objects descend into the valley and then up onto the hillside on the right. Consider the following two statements: 1. The hoop has a greater maximum speed than the disk at the...
Points: 2 9) Two objects of unequal ad by a very light cord passing over delerates, and friction is negligible an ideal pulley of negligible mass. When released, the systerm 9) Mand m (M m), are connected by a very lisgh ci t 一白 Which the two objects in the moving system? one of the following free-body diagrams most realistically represents the A) B) D) C) nt 0) Two objects have masses m and Sm, respectively. They both are placed...
A magnesium cylinder and a steel ring roll down a slope without slipping on the surface. Both objects have the same mass and outside diameter. The moment of inertia of a cylinder is Icyl = m r2 and the moment of inertia of a ring is lring = m (r? + r?). Which object will reach the bottom first? A. The magnesium cylinder will reach the bottom first. B. The steel ring will reach the bottom first. C. They will...
= A magnesium cylinder and a steel ring roll down a slope without slipping on the surface. Both objects have the same mass and outside diameter. The moment of inertia of a cylinder is Icyl mra and the moment of inertia of a ring is Iring m (r2 + rî). Which object will reach the bottom first? 1 1 2 A. The magnesium cylinder will reach the bottom first. B. The steel ring will reach the bottom first. C. They...
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