A thin rod of length L=2.0 m can rotate freely about a pin that is located...

(PLEASE COMPLETE ALL PARTS OF THE QUESTION) A uniform thin rod of mass m = 2.9...

(PLEASE COMPLETE ALL PARTS OF THE QUESTION) A uniform thin rod of mass m = 2.9 kg and length L = 1.9 m can rotate about an axle through its center. Four forces are acting on it as shown in the figure. Their magnitudes are F1 = 5.5 N, F2 = 2.5 N, F3 = 11 N and F4 = 19.5 N. F2 acts a distance d = 0.23 m from the center of mass. A) Calculate the magnitude τ1...

The figure shows a thin rod, of length L = 2.10 m and negligible mass, that...

The figure shows a thin rod, of length L = 2.10 m and negligible mass, that can pivot about one end to rotate in a vertical circle. A heavy ball of mass m = 7.10 kg is attached to the other end. The rod is pulled aside to angle θ0 = 5.3° and released with initial velocity v→0 = 0. (a) What is the speed of the ball at the lowest point? (b) Does the speed increase, decrease, or remain...

A cylindrical rod of mass 0.82 kg and length 1.88 m is free to rotate about...

A cylindrical rod of mass 0.82 kg and length 1.88 m is free to rotate about a pivot fixed at one end. A ball with a mass of 3.2 kg is attached to the other end of the rod. The rod-and ball system is held in a horizontal position by a vertical force that acts 1.41 m from the pivot. The force is then removed, and the rod-and-ball swings down. (a) What was the vertical force used to hold the...

The uniform thin rod in the figure below has mass M = 2.00 kg and length...

The uniform thin rod in the figure below has mass M = 2.00 kg and length L = 2.87 m and is free to rotate on a frictionless pin. At the instant the rod is released from rest in the horizontal position, find the magnitude of the rod's angular acceleration, the tangential acceleration of the rod's center of mass, and the tangential acceleration of the rod's free end. HINT An illustration shows the horizontal initial position and vertical final position...

A cylindrical rod of mass 0.82 kg and length 1.88 m is free to rotate about...

A cylindrical rod of mass 0.82 kg and length 1.88 m is free to rotate about a pivot fixed at one end. A ball (mass 3.2 kg) is attached to the other end of the rod. The rod-and- ball system is held in a horizontal position by a vertical force that acts 1.41 m from the pivot. The force is then removed, and the rod-and-ball swings down. (a) (4 points) What was the vertical force used to hold the system...

A uniform thin rod of length 0.56 m and mass 3.2 kg can rotate in a...

A uniform thin rod of length 0.56 m and mass 3.2 kg can rotate in a horizontal plane about a vertical axis through its center. The rod is at rest when a 3.5 g bullet traveling in the rotation plane is fired into one end of the rod. As viewed from above, the bullet's path makes angle θ = 60° with the rod. If the bullet lodges in the rod and the angular velocity of the rod is 12.0 rad/s...

A uniform thin rod of length 0.45 m and mass 6.5 kg can rotate in a...

A uniform thin rod of length 0.45 m and mass 6.5 kg can rotate in a horizontal plane about a vertical axis through its center. The rod is a rest when a 3.0-g bullet traveling in the horizontal plane of the rod is fired into one end of the rod. As viewed from above, the direction of the bullet velocity makes an angle of 60° with the rod (see the figure). If the bullet lodges in the rod and the...

The assembly shown in the figure below consists of a thin rod of length ℓ =...

The assembly shown in the figure below consists of a thin rod of length ℓ = 23.2 cm and mass m = 1.20 kg with a solid sphere of diameter d = 10.0 cm and mass M = 2.00 kg attached to its top. The assembly is free to pivot about a frictionless axle through the bottom of the rod. The assembly is initially vertical and at rest when it starts to rotate clockwise. A thin rod of length ℓ...

a rod 2.5 m long with mass 10 kg can rotate freely about a horizontal axis...

a rod 2.5 m long with mass 10 kg can rotate freely about a horizontal axis through the end of the rod. a bullet with mass 15 grams or 0.015 kg with a speed of 400 m/s strikes center of the rod in a direction perpendicular to the rod, and is embedded there. What is the rod's angular speed after the bullet stops in the rod?

8%) Problem 15:   A rod of mass M = 3.5 kg and length L can rotate...

8%) Problem 15:   A rod of mass M = 3.5 kg and length L can rotate about a hinge at its left end and is initially at rest. A putty ball of mass m = 55 g, moving with speed v = 6.68 m/s, strikes the rod at angle θ = 59° from the normal at a distance D = 2/3 L, where L = 1.25 m, from the point of rotation and sticks to the rod after the collision....