An object rolls down a hill such that 2/5 of its kinetic energy is rotational. Determine...
An object rolls down a hill such that 2/5 of its kinetic energy is rotational. Determine an expression for the object's moment of inertia in terms of its mass, m, and radius, r. (Use any variable or symbol stated above as necessary.)
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An object rolls down a hill such that 2/5 of its kinetic energy is rotational. Determine...
This problem illustrates the two contributions to the kinetic energy of an extended object: rotational kinetic...
This problem illustrates the two contributions to the kinetic
energy of an extended object: rotational kinetic energy and
translational kinetic energy. You are to find the total kinetic
energy Ktotal of a dumbbell of mass mwhen it is
rotating with angular speed ? and its center of mass is
moving translationally with speed v. (Figure 1) Denote the
dumbbell's moment of inertia about its center of mass by
Icm. Note that if you approximate the spheres as point
masses of...
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer,...
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer, nothing torn out of a notebook), please answer the questions below. The assignment is due before lab starts. 1. When an object rolls down an incline, its kinetic energy is composed of both rotational and translational terms. Write out the equation for total kinetic energy with rotational and translational components. Label the terms to identity which is rotational and which is translational. 2. A...
A solid cylinder of radius R and mass m, and moment of inertia mR2/2, starts from rest and rolls down a hill without slipping.
A solid cylinder of radius R and mass m, and moment of inertia mR2/2, starts from rest and rolls down a hill without slipping. At the bottom of the hill, the speed of the center of mass is 4.7 m/sec. A hollow cylinder (moment of inertia mR2) with the same mass and same radius also rolls down the same hill starting from rest. What is the speed of the center of mass of the hollow cylinder at the bottom of...
Please help with question 2. Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece...
Please help with question 2.
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer, nothing torn out of a notebook), please answer the questions below. The assignment is due before lab starts. 1. When an object rolls down an incline, its kinetic energy is composed of both rotational and translational terms. Write out the equation for total kinetic energy with rotational and translational components. Label the terms to identify which is rotational and...
A small object of mass m moves in a horizontal circle of radius r on a...
A small object of mass m moves in a horizontal circle of radius r on a rough table. It is attached to a horizontal string fixed at the center of the circle. The speed of the object is initially v0. After completing one full trip around the circle, the speed of the object is 0.5v0. (a) Find the energy dissipated by friction during that one revolution in terms of m, v0, and r. (Use any variable or symbol stated above...
A 1.9 m radius cylinder with a mass of 531.1 kg rolls without slipping down a...
A 1.9 m radius cylinder with a mass of 531.1 kg rolls without slipping down a hill which is 56.5 meters high. At the bottom of the hill, what fraction of its total kinetic energy is invested in rotational kinetic energy?
A 1.2 m radius cylinder with a mass of 8.8 kg rolls without slipping down a...
A 1.2 m radius cylinder with a mass of 8.8 kg rolls without slipping down a hill which is 5.7 meters high. At the bottom of the hill, what percentage of its total kinetic energy is invested in rotational kinetic energy?
A 1.2 m radius cylinder with a mass of 5.9 kg rolls without slipping down a...
A 1.2 m radius cylinder with a mass of 5.9 kg rolls without slipping down a hill which is 8.2 meters high. At the bottom of the hill, what fraction of its total kinetic energy is invested in rotational kinetic energy?
6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of i...
6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of inertia J rolls without slipping down the incline shown. The spring affixed to its axle has rest length h, and is neither extended nor compressed when r 0. The external force F is directed parallel to the direction of rolling. Find the total kinetic energy and potential energy in the system. Assume the gravitational potential energy to be zero when the...
1) A solid ball of mass M and radius R rolls without slipping down a hill...
1) A solid ball of mass M and radius R rolls without slipping down a hill with slope tan θ. (That is θ is the angle of the hill relative to the horizontal direction.) What is the static frictional force acting on it? It is possible to solve this question in a fairly simple way using two ingredients: a) As derived in the worksheet when an object of moment of inertia I, mass M and radius R starts at rest...
This problem illustrates the two contributions to the kinetic
energy of an extended object: rotational kinetic energy and
translational kinetic energy. You are to find the total kinetic
energy Ktotal of a dumbbell of mass mwhen it is
rotating with angular speed ? and its center of mass is
moving translationally with speed v. (Figure 1) Denote the
dumbbell's moment of inertia about its center of mass by
Icm. Note that if you approximate the spheres as point
masses of...
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer, nothing torn out of a notebook), please answer the questions below. The assignment is due before lab starts. 1. When an object rolls down an incline, its kinetic energy is composed of both rotational and translational terms. Write out the equation for total kinetic energy with rotational and translational components. Label the terms to identity which is rotational and which is translational. 2. A...
Please help with question 2.
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer, nothing torn out of a notebook), please answer the questions below. The assignment is due before lab starts. 1. When an object rolls down an incline, its kinetic energy is composed of both rotational and translational terms. Write out the equation for total kinetic energy with rotational and translational components. Label the terms to identify which is rotational and...
6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of inertia J rolls without slipping down the incline shown. The spring affixed to its axle has rest length h, and is neither extended nor compressed when r 0. The external force F is directed parallel to the direction of rolling. Find the total kinetic energy and potential energy in the system. Assume the gravitational potential energy to be zero when the...
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