1.4 Data and Result (Simple Pendulum): Potential Energy, in cm Location of Pendulum Bob Time, in seconds Kinetic Energy, in cm Farthest Right - (90°) 0.98 0 cm 50 cm 1.48 50 cm О ст Bottom Dead Center Farthest Left - (90°) 1.96 0 cm 50 cm 2.63 43 cm 19 cm Right - (Approximately 45°) 3.62 43 сm 19 cm Left - (Approximately 45°) 4.76 16 cm 46 cm Right - (Approximately 75°) 5.74 17 cm 45 cm Left - (Approximately 75°) 6.52 50 cm 7 cm Right - (Approximately 25°) Left - (Approximately 25°) 7.51 50 cm 7 cm
1.4 Data and Result (Simple Pendulum): Potential Energy, in cm Location of Pendulum Bob Time, in seconds Kinetic Energy, in cm Farthest Right - (90°) 0.98 0 cm 50 cm 1.48 50 cm О ст Bottom Dead Center Farthest Left - (90°) 1.96 0 cm 50 cm 2.63 43 cm 19 cm Right - (Approximately 45°) 3.62 43 сm 19 cm Left - (Approximately 45°) 4.76 16 cm 46 cm Right - (Approximately 75°) 5.74 17 cm 45 cm Left - (Approximately 75°) 6.52 50 cm 7 cm Right - (Approximately 25°) Left - (Approximately 25°) 7.51 50 cm 7 cm
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter3: Oscillations
Section: Chapter Questions
Problem 3.10P: If the amplitude of a damped oscillator decreases to 1/e of its initial value after n periods, show...
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Based on your result and data in the pendulum experiment, make a line graph using Excel or any graphing application of your choice of the KE vs time, and, on the same graph in a different color, PE vs time.
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