- Can Be 13 85 The Differential Equation Of Motion For The Simple Pendulum C 9 81 M And That The Pendulum Shown To Be 1 (39.13 KiB) Viewed 32 times
Z 0 L m 34 Figure P13.85
can be 13.85 The differential equation of motion for the simple pendulum c 9.81 m and that the pendulum shown to be = -(
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can be 13.85 The differential equation of motion for the simple pendulum c 9.81 m and that the pendulum shown to be = -(
can be 13.85 The differential equation of motion for the simple pendulum c 9.81 m and that the pendulum shown to be = -(g/L) sin 8. Given that L is released from rest at 8 = 60°, determine the time required for the pendulum to reach the position 8 = 0. Compare your answer with the analytical solution of 1.686 s.
Z 0 L m 34 Figure P13.85
Z 0 L m 34 Figure P13.85