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...

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 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 6.3 s. Find d. in m.

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

Consider a ‘physical pendulum’ made of a meter stick (length L = 1 m, mass 0.2...

Consider a ‘physical pendulum’ made of a meter stick (length L = 1 m, mass 0.2 kg) with a hole drilled through it at the 5 cm mark. The stick is free to rotate (in a vertical plane) around a nail that goes through the hole and into a wall. Assume no friction between the nail and the hole. The stick’s moment of inertia about the nail is I=0.1 kgm2. (Use g=10 m/s2) If the pendulum is released from rest...

HARMONIC OSCILLATOR A student wants to use a meter stick as a pendulum. She plans to...

HARMONIC OSCILLATOR A student wants to use a meter stick as a pendulum. She plans to drill a small hole through the meter stick and suspend it from a smooth pin attached to the wall. a-) Where in the meter stick should she drill the hole to obtain the shortest possible period? Express your answer with the appropriate units. b-) How short an oscillation period can she obtain with a meter stick in this way? Express your answer with the...

A particle of mass 0.350 kg is attached to the 100-cm mark of a meter stick...

A particle of mass 0.350 kg is attached to the 100-cm mark of a meter stick of mass 0.125 kg. The meter stick rotates on a frictionless, horizontal table with an angular speed of 6.00 rad/s. (a) Calculate the angular momentum of the system when the stick is pivoted about an axis perpendicular to the table through the 50.0-cm mark. _____ kg · m2/s (b) Calculate the angular momentum of the system when the stick is pivoted about an axis...

A uniform meter stick is suspended at the 10cm mark mark on the stick. It swings...

A uniform meter stick is suspended at the 10cm mark mark on the stick. It swings as a physical pendulum. The equation for the moment of inertia of a thin rod rotated about an axis through the center is 1/12 ML^2. a) What is the rotational inertia in terms of M? b) What is the period of the pendulum?

t. A meter‐stick of negligible mass is pivoted in the middle so it can spin horizontally....

t. A meter‐stick of negligible mass is pivoted in the middle so it can spin horizontally. Two 500g clamps (consider point masses) are placed at the 40cm and 60cm marks. A) Find the moment of inertia of the system. B) One of the clamps is pushed, at an angle of 42˚ with respect to the meter‐stick, with a force of 12N for a time period of 0.2s. What will be the meter stick’s angular velocity? C) As this meter‐stick is...