A simple pendulum is made of a 50 cm-string and a bob of mass m. At t= 0, thependulum is at its equilibrium position and is given an initial velocity v = 0.1 m/s.The maximum angular speed, e'max, is:0.1 rad/s0.4 rad/s0.8 rad/s0.05 rad/sO 0.2 rad/sA simple pendulum consists of a 0.8-kg bob connected to a massless-ihlo cord with a length L = 1.9 m. The bob is set into motion and its Consider a place where the gravity is one-ninth the gravity on Earth (g'= g/9),then the frequency of oscillation of a simple pendulum in that place, f', ascompared to its frequency on earth is:O f = 9fO f = 4fO f' = f/3O f' = 2fO f'= f/2A simple pendulum is made of a 50 cm-string and a bob of mass m. At t = 0, the

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simple pendulum is made of a 50 cm-string and a bob of mass m. At t = 0, the pendulum is at its equilibrium position and is given an initial velocity v = 0.1 m/s. The maximum angular speed, e'max, is: 0.1 rad/s 0.4 rad/s O 0.8 rad/s O 0.05 rad/s O 0.2 rad/s

simple pendulum is made of a 50 cm-string and a bob of mass m. At t = 0, the pendulum is at its equilibrium position and is given an initial velocity v = 0.1 m/s. The maximum angular speed, e'max, is: 0.1 rad/s 0.4 rad/s O 0.8 rad/s O 0.05 rad/s O 0.2 rad/s

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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A simple pendulum is made of a 50 cm-string and a bob of mass m. At t= 0, the
pendulum is at its equilibrium position and is given an initial velocity v = 0.1 m/s.
The maximum angular speed, e'max, is:
0.1 rad/s
0.4 rad/s
0.8 rad/s
0.05 rad/s
O 0.2 rad/s
A simple pendulum consists of a 0.8-kg bob connected to a massless
-ihlo cord with a length L = 1.9 m. The bob is set into motion and its

Consider a place where the gravity is one-ninth the gravity on Earth (g'= g/9),
then the frequency of oscillation of a simple pendulum in that place, f', as
compared to its frequency on earth is:
O f = 9f
O f = 4f
O f' = f/3
O f' = 2f
O f'= f/2
A simple pendulum is made of a 50 cm-string and a bob of mass m. At t = 0, the

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