The long stick is pivoted at its boundary to make frictionless oscillations. If the length of...

A stick of mass M and length L is pivoted at one end. A small mass...

A stick of mass M and length L is pivoted at one end. A small mass m<M is attached to the right-hand end of the stick. The stick is held horizontally and released from rest. Given that the rotational inertia of a uniform rod pivoted around one end is 1/3ML^2, determine the rotational inertia of the described system. Calculate the angular velocity of the system when it reaches a vertical position. You cannot use rotational kinematics here because angular acceleration...

A uniform thin stick of length L=3.00 m and mass m=2.00 kg is undergoing small oscillations...

A uniform thin stick of length L=3.00 m and mass m=2.00 kg is undergoing small oscillations about a pivot point x away from its center of mass. For the oscillation period to be the minimum possible value, what should be the value of x? Enter the value in meters.

A uniform thin stick of length L=2.25 m and mass m=1.75 kg is undergoing small oscillations...

A uniform thin stick of length L=2.25 m and mass m=1.75 kg is undergoing small oscillations about a pivot point x away from its center of mass. For the oscillation period to be the minimum possible value, what should be the value of x? Enter the value in meters.

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled...

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled through the stick a distance d from the 50 cm mark. The period of oscillation is 2.54 s. Find d.

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled...

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled through the stick a distance d from the 50 cm mark. The period of oscillation is 6 s. Find d.

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled...

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled through the stick a distance d from the 50 cm mark. The period of oscillation is 2.15 s. Find d.

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled...

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled through the stick a distance d from the 50 cm mark. The period of oscillation is 6.3 s. Find d. in m.

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled...

A physical pendulum consists of a meter stick that is pivoted at a small hole drilled through the stick a distance d from the 50 cm mark. The period of oscillation is 3.76 s. Find d, in cm.

A compound pendulum consists of a 1.35-m stick pivoted at a small hole drilled at a...

A compound pendulum consists of a 1.35-m stick pivoted at a small hole drilled at a distance d from the middle of the stick. If the period of oscillation is 3.60 s, find d. Incorrect

A uniform stick 1.0 m long with a total mass of 300.0 g is pivoted at...

A uniform stick 1.0 m long with a total mass of 300.0 g is pivoted at its center. A 3.0 g bullet is shot through the stick midway between the pivot and one end. The bullet approaches at 250 m/s and leaves at 160 m/s. With what angular speed is the stick spinning after the collision, if the bullet strikes the stick perpendicularly? (The moment of inertia of a uniform stick rotating about its center is I = (1/12)mL2.)