A simple pendulum with mass m = 0.50 kg, and length = 1.00 m swings freely. Use the same general solution selected in lecture and accompany your calculations with a good physics diagram. (a) If the pendulum begins at rest making an angle 6 = 0.122 rad, what is the phase factor? (b) Suppose the same pendulum at a later time makes an angle 0 -0.066 rad, what values of angular velicity can the pendulum have? What is the phase factor for each solution?
A simple pendulum with mass m = 0.50 kg, and length = 1.00 m swings freely. Use the same general solution selected in lecture and accompany your calculations with a good physics diagram. (a) If the pendulum begins at rest making an angle 6 = 0.122 rad, what is the phase factor? (b) Suppose the same pendulum at a later time makes an angle 0 -0.066 rad, what values of angular velicity can the pendulum have? What is the phase factor for each solution?
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Transcribed Image Text:Chapter 1 of "Waves", Out of Print, by Frank Crawford, Jr.
A simple pendulum with mass m = 0.50 kg, and length & = 1.00 m swings freely. Use the same
general solution selected in lecture and accompany your calculations with a good physics diagram.
(a) If the pendulum begins at rest making an angle 0 =
Suppose the same pendulum at a later time makes an angle 0 = -0.066 rad, what values of angular
velicity can the pendulum have? What is the phase factor for each solution?
0.122 rad, what is the phase factor? (b)
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