Two children, each with mass m = 24.0 kg, sit on opposite ends of a narrow...

Two children with identical mass sit on a uniformly rotating merry-go-round. One of them sits close...

Two children with identical mass sit on a uniformly rotating merry-go-round. One of them sits close to the axis, and the other sits close to the edge. Consider their angular velocities, rotational inertia and angular momenta about the merry-go-round’s axis. Which of the following is a true statement? A. The children have the same angular velocity, but different rotational inertia and angular momenta. B. The children have the same angular velocity and angular momentum, but different rotational inertia . C....

in space, two astronauts, each with a mass of 60 kg, are attached to each other...

in space, two astronauts, each with a mass of 60 kg, are attached to each other at the ends of a 30 m long rope. they are rotating abiut the CENTER of the rope, each traveling in the same circular path at a speed of V =3.50 m/s draw and label a figure A) find initial moment of inertia B) find the initial angular velocity the astronauts pull themselves along the rope until they are 2.20 m apart. C) now...

Two children (m = 27.0 kg each) stand opposite each other on the edge of a...

Two children (m = 27.0 kg each) stand opposite each other on the edge of a merry-go-round. The merry-go-round, which has a mass of 1.66 ? 102 kg and a radius of 1.6 m, is spinning at a constant rate of 0.38 rev/s. Treat the two children and the merry-go-round as a system. (a) Calculate the angular momentum of the system, treating each child as a particle. (Give the magnitude.) kg · m2/s (b) Calculate the total kinetic energy of...

Two children (m = 28.0 kg each) stand opposite each other on the edge of a...

Two children (m = 28.0 kg each) stand opposite each other on the edge of a merry-go-round. The merry-go-round, which has a mass of 1.72 ? 102 kgand a radius of 1.4 m, is spinning at a constant rate of 0.44 rev/s. Treat the two children and the merry-go-round as a system. (a) Calculate the angular momentum of the system, treating each child as a particle. (Give the magnitude.) (b) Calculate the total kinetic energy of the system. (c) Both...

A 2.0-m measuring stick of mass 0.215 kg is resting on a table. A mass of...

A 2.0-m measuring stick of mass 0.215 kg is resting on a table. A mass of 0.500 kg is attached to the stick at a distance of 74.0 cm from the center. Both the stick and the table surface are frictionless. The stick rotates with an angular speed of 5.40 rad/s. (a) If the stick is pivoted about an axis perpendicular to the table and passing through its center, what is the angular momentum of the system? kg · m2/s...

Two children of mass 16 kg and 33 kg sit balanced on a seesaw with the...

Two children of mass 16 kg and 33 kg sit balanced on a seesaw with the pivot point located at the center of the seesaw. If the children are separated by a distance of 4 m, at what distance from the pivot point is the small child sitting in order to maintain the balance?

Two children sit on a 10 kg seesaw. The first is 40 kg, and the second...

Two children sit on a 10 kg seesaw. The first is 40 kg, and the second is 30 kg. The first sits 0.5 meters from the seesaw pivot. If the second child were sitting at the same distance from the pivot as the first child, what would the angular acceleration of the system be? (Hint: you must first find the total moment of inertia of the system, which you can find by adding up all the moments of inertia of...

A 3 kg disk of radius 0.25 m is rotating freely at an angular speed of...

A 3 kg disk of radius 0.25 m is rotating freely at an angular speed of 100 rad/s on a shaft passing through the center if mass of the disk. A 2 kg solid ball of the same radius, initially not rotating, slides down the shaft (the shaft passes through the ball's center of mass) and is coupled to the disk. Assuming that the rotational inertia is of the shaft is negligible, a) what is the angular speed of the...

A solid disk of mass m1 = 9.5 kg and radius R = 0.19 m is...

A solid disk of mass m1 = 9.5 kg and radius R = 0.19 m is rotating with a constant angular velocity of ω = 30 rad/s. A thin rectangular rod with mass m2 = 3.3 kg and length L = 2R = 0.38 m begins at rest above the disk and is dropped on the disk where it begins to spin with the disk. 1) What is the initial angular momentum of the rod and disk system? 2) What...

Three small balls of mass 3.6 kg, 2.4 kg, and 3.9 kg are connected by light...

Three small balls of mass 3.6 kg, 2.4 kg, and 3.9 kg are connected by light rods laying along the y-axis. The rod connecting the first and second balls is 4.8 m long and the rod connecting the second and third balls is 2 m. The entire system rotates around the x-axis, which is between the first and second balls and a distance 2.9 m from the first ball, at a rotational speed 2.6 s-1. (a)What is the distance of...