A pendulum with a 0.450-kg bob is set in motion on a planet that has an...

A simple pendulum has a mass of 0.450 kg and a length of 3.00 m. It...

A simple pendulum has a mass of 0.450 kg and a length of 3.00 m. It is displaced through an angle of 6.0° and then released. Solve this problem by using the simple harmonic motion model for the motion of the pendulum. (a) What is the maximum speed? ___m/s (b) What is the maximum angular acceleration? ___rad/s2 (c) What is the maximum restoring force? ___N

Pendulum A located on the earth and pendulum B located on another planet have the same...

Pendulum A located on the earth and pendulum B located on another planet have the same period for small angle oscillations. What is the ratio of the length of pendulum A to the length of pendulum B? The acceleration due to the gravity on the surface of the planet is 1.6m/s2.

An astronaut lands on Planet X and wants to know the acceleration due to gravity. He...

An astronaut lands on Planet X and wants to know the acceleration due to gravity. He sets up a simple pendulum that has a 2 kg bob on a 0.540 m long string. He measures that it takes 22 seconds to complete 10 full oscillations. What is the acceleration of gravity on Planet X?

Consider the following motion of pendulum. The bob has constant tangential speed along the horizontal circle....

Consider the following motion of pendulum. The bob has constant tangential speed along the horizontal circle. The mass of bob is 3kg. The length of pendulum is 2m. The angle θ is 37. (a). Find Tension. (b). Find the centripetal acceleration acting on the bob. (c). Find the tangential speed of the bob.

A simple pendulum has a period of 0.777 s on Earth. What is its period on...

A simple pendulum has a period of 0.777 s on Earth. What is its period on a planet on which the acceleration of gravity is 2.89 m/s2?

A simple pendulum has a mass of 0.150 kg and a length of 4.00 m. It...

A simple pendulum has a mass of 0.150 kg and a length of 4.00 m. It is displaced through an angle of 7.0° and then released. Using the analysis model of a particle in simple harmonic motion, calculate the following. (Give your answer to the thousandths place.) (a) What is the maximum speed of the bob? m/s (b) What is the maximum angular acceleration of the bob? rad/s2 (c) What is the maximum restoring force of the bob? N (d)...

A simple pendulum has a mass of 0.550 kg and a length of 4.00 m. It...

A simple pendulum has a mass of 0.550 kg and a length of 4.00 m. It is displaced through an angle of 10.0° and then released. Using the analysis model of a particle in simple harmonic motion, calculate the following. (Give your answer to the thousandths place.) (a) What is the maximum speed of the bob? our response differs from the correct answer by more than 100%. m/s (b) What is the maximum angular acceleration of the bob? rad/s2 (c)...

A frictionless simple pendulum on earth has a period of 1.2 seconds. On planet X its...

A frictionless simple pendulum on earth has a period of 1.2 seconds. On planet X its frequency of oscillation is 1.2 Hz. What is the acceleration due to gravity on planet X in units of meters per second squared? 16.9 6.8 20.3 14.1 9.8

For the pendulum system below, suppose that the mass of the pendulum bob is 1.0 kg...

For the pendulum system below, suppose that the mass of the pendulum bob is 1.0 kg and the length of the string is 2.0 m. The pendulum is released from rest where θ = 5° = 0.087 rad and it swings back and forth. Assume air resistance is negligible. (A) how man oscillation does the pendulum make in 20.0 seconds? (B) what is the KE of the pendulum at t = 0.160 seconds? (C) at what locations is the pendulum...

A pendulum consisting of a small bob of mass m at the end of an effectively...

A pendulum consisting of a small bob of mass m at the end of an effectively massless rigid rod of length L is set into motion by releasing its bob from a small angle theta 0 from the vertical. a) What maximum angular and linear speed does the pendulum achieve? Where in its path is this speed reached? b) What are the angular and linear oscillation frequencies of the pendulum [or what is its period].