Why does the period of a simple planar pendulum seem to be independent of the mass...

Simple Pendulum with Gravity A pendulum consists of a mass m = 0.08 kg hanging from...

Simple Pendulum with Gravity A pendulum consists of a mass m = 0.08 kg hanging from a flexible string of length L. The string is very thin, very light, and does not stretch. It makes small oscillations, with a period of 0.622 s. What is the oscillation frequency of the pendulum? Neglect any air resistance. What would the period of the pendulum be on the moon's surface? Indicate for each of the following statements whether it is correct or incorrect....

Chapter 15 1. By what percent does the period of a simple pendulum change if you...

Chapter 15 1. By what percent does the period of a simple pendulum change if you double its (a) amplitude; (b) mass; (c) length? Period of a simple pendulum, T = 2(pi) sqrt(l/g)

A simple pendulum is constructed from a string of neligible mass that does not strech and...

A simple pendulum is constructed from a string of neligible mass that does not strech and a bob of mass 0.91kg that is essentially a point mass. The length of the string is 2.39m. The pendulum is started by being released from rest with an angle ( with redpext to the vertical) of 3.48degrees. Don't forget to convert degrees to radians. Use g=9.81m/s^2. What is the maximum speed (in m/s) of this motion? Response format x.xx. The answer is 0.12...

Part One: A simple pendulum of length l = 0.800 has a mass = 0.250kg. What...

Part One: A simple pendulum of length l = 0.800 has a mass = 0.250kg. What is the tension in the string when it is at angle theta = 12.5°? Show your force diagram and work to support your answer Part Two: What is the period T of the motion of the pendulum in Part Two? Assume the period is independent of angle theta. Part Three: What is the period T of the motion of the pendulum in Part One?...

A simple pendulum is constructed from a string of negligible mass. A mass (bob) 0.91kg that...

A simple pendulum is constructed from a string of negligible mass. A mass (bob) 0.91kg that is essentially a point mass. The string length is 0.65m. The pendulum is started by being released from rest with an angle (respect to the vertical) of 5.87 degrees. Use g=9.81 m/s^2. a) the maximum amplitude (in degrees) of this motion b)Angular frequency (in rad/s) of this motion c) Period (in s) of this motion.

A simple pendulum consists of a ball of mass m suspended from the ceiling using a...

A simple pendulum consists of a ball of mass m suspended from the ceiling using a string of length L. The ball is displaced from its equilibrium position by a small angle θ and released. Which one of the following statements concerning this situation is correct? (a) If the mass were increased, the period of the pendulum would increase. (b) The frequency of the pendulum does not depend on the acceleration due to gravity. (c) If the length of the...

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 simple pendulum was built using a ball attached to a light string. The mass of...

A simple pendulum was built using a ball attached to a light string. The mass of the ball is 0.38 kg and the length of the string is 1.0 m. If the amplitude of the pendulum is 10.5°, what is the maximum kinetic energy? Group of answer choices

Would the period of a particular pendulum be the same on the moon as on Earth?...

Would the period of a particular pendulum be the same on the moon as on Earth? Explain. 2. What effect does the mass of the ball have on the period of a simple pendulum? What would be the effect of replacing the steel ball with a wooden ball, a lead ball, and a ping pong ball of the same size? 3.Would you conclude that Galileo was correct in his observation that the period of a simple pendulum depends only on...

A simple pendulum has a period of 3 seconds on Earth. If it is taken to...

A simple pendulum has a period of 3 seconds on Earth. If it is taken to Planet X, which has the same mass as Earth but a radius 0.5 the size of Earth’s radius, the new period will be: correct answer = 1.5 sec show work and explain!!!