Two pendulums are swinging. One is a uniform rigid rod with a length of "l" and...

A pendulum rod has a length L and has a mass m at the end. The...

A pendulum rod has a length L and has a mass m at the end. The pendulum is released from rest at an angle θ away from straight down. (In this problem you may neglect friction and mass of the pendulum arm.) What will the velocity of the mass be at the bottom? What will the tension in the pendulum arm be as it rotates through the bottom of its swing? A person holds the pendulum in place before it...

Two pendulums of equal length l = 0.45 m are suspended from the same point. The...

Two pendulums of equal length l = 0.45 m are suspended from the same point. The pendulum bobs are steel spheres. The first bob is drawn back to make a 35° angle with the vertical. If the first bob has mass 0.25kg and the second has mass .54 how high will the second bob rise above its initial position when struck elastically by the first bob after it is released?

Two pendulums of equal length l = 2.00 m are suspended from the same point. The...

Two pendulums of equal length l = 2.00 m are suspended from the same point. The pendulum bobs are steel spheres. The first bob is drawn back to make a 35° angle with the vertical. If the first bob has mass 0.25 kg and the second has mass 0.85 kg, how high will the second bob rise above its initial position when struck elastically by the first bob after it is released?

A simple pendulum, consisting of a string (of negligible mass) of length L with a small...

A simple pendulum, consisting of a string (of negligible mass) of length L with a small mass m at the end, is initially held horizontal (theta = 90) and then released. a) what is the maximum velocity that the mass attains after release? b) at what angle theta, is the power delivered to the ball by gravity a maximum as the pendulum swings down? take theta = 0 when the pendulum is vertical.

A uniform rod of mass M and length L is pivoted at one end. The rod...

A uniform rod of mass M and length L is pivoted at one end. The rod is left to freely rotate under the influence of its own weight. Find its angular acceleration α when it makes an angle 30° with the vertical axis. Solve for M=1 Kg, L=1 m, take g=10 m s-2. Hint: Find the center of mass for the rod, and calculate the torque, then apply Newton as τ= Ι·α 

A uniform rod of mass M and length L is pivoted at one end. The rod...

A uniform rod of mass M and length L is pivoted at one end. The rod is left to freely rotate under the influence of its own weight. Find its angular acceleration α when it makes an angle 30° with the vertical axis. Solve for M=1 Kg, L=1 m, take g=10 m s-2. Your answer in X.X rad s-2. Hint: Find the center of mass for the rod, and calculate the torque, then apply Newton as τ= Ι·α

A thin uniform rod with mass m swings about an axis that passes through one end...

A thin uniform rod with mass m swings about an axis that passes through one end of the rod and is perpendicular to the plane of the swing. The rod swings with a period T and an angular amplitude of φm (assume this angle is sufficiently small to allow for the use of the equations in this chapter). (a) What is the length of the rod? (b) What is the maximum kinetic energy of the rod as it swings? State...

A pendulum is constructed of a small bob of mass m and a uniform rigid rod...

A pendulum is constructed of a small bob of mass m and a uniform rigid rod of length L and mass M. Find the frequency f = 1/T of small oscillations, and show that the result reduces correctly in the limits M → 0 and m → 0.

A thin, rigid, uniform rod has a mass of 1.40 kg and a length of 2.50...

A thin, rigid, uniform rod has a mass of 1.40 kg and a length of 2.50 m. (a) Find the moment of inertia of the rod relative to an axis that is perpendicular to the rod at one end. (b) Suppose all the mass of the rod were located at a single point. Determine the perpendicular distance of this point from the axis in part (a), such that this point particle has the same moment of inertia as the rod...

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...