The figure below shows a pendulum with length L and the angle 0 from the vertical to the pendulum. It can be shown that 0, as a function of time, satisfies the following nonlinear differential equation 1²0 de2 200 9 + sin0 = 0 where a denotes the acceleration due to gravity. For small values of 0 we can assume 8- sin 8 (g=9.8m/s^2) such that the differential equation can be considered to be linear. Find the equation of motion of the pendulum with length 750 cm if e is initially 15° and its initial angular velocity is de = 1 rad/s. What is the maximum angle from the vertical?
The figure below shows a pendulum with length L and the angle 0 from the vertical to the pendulum. It can be shown that 0, as a function of time, satisfies the following nonlinear differential equation 1²0 de2 200 9 + sin0 = 0 where a denotes the acceleration due to gravity. For small values of 0 we can assume 8- sin 8 (g=9.8m/s^2) such that the differential equation can be considered to be linear. Find the equation of motion of the pendulum with length 750 cm if e is initially 15° and its initial angular velocity is de = 1 rad/s. What is the maximum angle from the vertical?
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![(a)
D
The figure below shows a pendulum with length L and the angle 0 from the
vertical to the pendulum. It can be shown that 0, as a function of time, satisfies
the following nonlinear differential equation
(e)
d'o
dt2
(
+ sin0 = 0
where denotes the acceleration due to gravity.
g
For small values of 0 we can assume
(b) What is the maximum angle from the vertical?
8 sing
(g-9.6m/s^2)
www.
such that the differential equation can be considered to be linear.
Find the equation of motion of the pendulum with length 750 cm if e is initially
15° and its initial angular velocity is
de = 1 rad/s
(d) When will the pendulum be vertical from initial position, that is, 8=0?
What is the period of the pendulum (the time to complete one back-and-forth
swing)?
What is the angular velocity when the pendulum is vertical?
Describe how the pendulum concept is used in the pendulum clock.
(mar
(1) mar](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F00e5c5de-298c-41fb-9861-0262471f9c17%2Fe7f15b4a-d906-4b0b-84eb-2ddf95233eba%2F6537n_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(a)
D
The figure below shows a pendulum with length L and the angle 0 from the
vertical to the pendulum. It can be shown that 0, as a function of time, satisfies
the following nonlinear differential equation
(e)
d'o
dt2
(
+ sin0 = 0
where denotes the acceleration due to gravity.
g
For small values of 0 we can assume
(b) What is the maximum angle from the vertical?
8 sing
(g-9.6m/s^2)
www.
such that the differential equation can be considered to be linear.
Find the equation of motion of the pendulum with length 750 cm if e is initially
15° and its initial angular velocity is
de = 1 rad/s
(d) When will the pendulum be vertical from initial position, that is, 8=0?
What is the period of the pendulum (the time to complete one back-and-forth
swing)?
What is the angular velocity when the pendulum is vertical?
Describe how the pendulum concept is used in the pendulum clock.
(mar
(1) mar
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