A. Determine the equation of motion of a pendulum with length 1 meters and initial angle 0.1 radians and initial angular velocity dθ/dt 0.1 radians/sec. B. At what time does the pendulum first reach its maximum angle from vertical? (You may want to use an inverse trig function in your answer) seconds C. What is the maximum angle (in radians) from vertical?

A. Determine the equation of motion of a pendulum with length 1 meters and initial angle 0.1 radians and initial angular velocity dθ/dt 0.1 radians/sec. B. At what time does the pendulum first reach its maximum angle from vertical? (You may want to use an inverse trig function in your answer) seconds C. What is the maximum angle (in radians) from vertical?

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Question

Suppose a pendulum with length L (meters) has angle θ (radians) from the vertical. It can be shown that θ as a function of time satisfies the differential equation:
d2θdt2+gLsinθ=0
where g=9.8 m/sec/sec is the acceleration due to gravity. For small values of θ we can use the approximation sin(θ)∼θ, and with that substitution, the differential equation becomes linear.

A. Determine the equation of motion of a pendulum with length 1 meters and initial angle 0.1 radians and initial angular velocity dθ/dt 0.1 radians/sec.

B. At what time does the pendulum first reach its maximum angle from vertical? (You may want to use an inverse trig function in your answer)
seconds

C. What is the maximum angle (in radians) from vertical?

D. How long after reaching its maximum angle until the pendulum reaches maximum deflection in the other direction? (Hint: where is the next critical point?)
seconds

E. What is the period of the pendulum, that is the time for one swing back and forth?
seconds

Definition Definition Rate of change of angular displacement. Angular velocity indicates how fast an object is rotating. It is a vector quantity and has both magnitude and direction. The magnitude of angular velocity is represented by the length of the vector and the direction of angular velocity is represented by the right-hand thumb rule. It is generally represented by ω.

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