A simple pendulum is swinging back and forth through a small angle, its motion repeating every 1.34 s. How much longer should the pendulum be made in order to increase its period by 0.27 s?
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A simple pendulum is swinging back and forth through a small angle, its motion repeating every...
A simple pendulum is swinging back and forth through a small angle, its motion repeating every 1.36 s. How much longer should the pendulum be made in order to increase its period by 0.29 s?
A simple pendulum is swinging back and forth through a small angle, its motion repeating every 1.13 s. How much longer should the pendulum be made in order to increase its period by 0.29 s?
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ï. When a pendulum swings with a small angle its motion is approximately simple harmonic when it swings aa arger ang e, why does tis not work anymore. a Because the acceleration is no longer proportional to the displacement. O b. Because the acceleration then depends on the mass. O c. Because the restoring force is now inversely proportional to the displacement. O d. Because the force is no longer a restoring force at large angle...
7. A mass moves back and forth in simple harmonic motion with an amplitude of 0.25 m and a period of 1.2 s. Through what distance does the mass move in 2.4 s?
. You pull a simple pendulum of length 0.240m to the side through an angle of 3.50 and release it. a) How much time does it take the pendulum bob to reach its highest speed? b) How much time does it take if the pendulum bob is released at an angle of 1.75 (instead of 3.50")? 7. An unhappy 0.300kg rat, moving on the end of spring with a spring constant k = 2.50N/m, is acted upon by a damping...
Observer A sees a pendulum oscillating back and forth in a relativistic rocket and measures its period to be TA. Observer B moves along with the rocket and measures the period of the pendulum to be TB. What is true about these two time measurements? TA < TB TA > TB TA = TB TA could be greater or smaller than TB depending on the direction of the motion. None of the above is correct.
he length of a simple pendulum is 0.65 m and the mass of the particle (the “bob”) at the end of the cable is 0.20 kg. The pendulum is pulled away from its equilibrium position by an angle of 7.7° and released from rest. Assume that friction can be neglected and that the resulting oscillatory motion is simple harmonic motion. (a) What is the angular frequency of the motion? (b) Using the position of the bob at its lowest point...
The length of a simple pendulum is 0.75 m and the mass of the particle (the "bob") at the end of the cable is 0.33 kg. The pendulum is pulled away from its equilibrium position by an angle of 9.1° and released from rest. Assume that friction can be neglected and that the resulting oscillatory motion is simple harmonic motion. (a) What is the angular frequency of the motion? (b) Using the position of the bob at its lowest point...
2. The position of the motion of the bob in a simple pendulum in radians is given by 0(t)-3cos What is the amplitude, frequency, and period of the motion? 3.A man enters a tall tower needing to know its height. He notes that a long pendulum extends from the ceiling almost to the floor, and its period is 12 s. How tall is the tower? Two playground swings start out together. After 5 complete oscillations, the swings are out of...
A simple pendulum is made from a 0.625 m-long string and a small ball attached to its free end. The ball is pulled to one side through a small angle and then released from rest. After the ball is released, how much time elapses before it attains its greatest speed?