The time period of a simple pendulum in a stationary trolley is \(T_1.\) If the trolley is moving with a constant speed, then the time period is \(T_2.\) Then: 
1. \(T_1>T _2\)
2. \(T_1<T _2\)
3. \(T_1=T _2\)
4. \(T_2= \infty \)

Subtopic:  Simple Harmonic Motion |
 78%
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A particle executes SHM with a frequency of \(20~\text{Hz}\). The frequency with which its potential energy oscillates is:
1. \(5~\text{Hz}\)
2. \(20~\text{Hz}\)
3. \(10~\text{Hz}\)
4. \(40~\text{Hz}\)
Subtopic:  Energy of SHM |
 74%
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 A particle is moving along the x-axis. The speed of particle v varies with position x as v2144 + x29 = 1. The time period of S.H.M is

1.  π unit

2.  3π2 unit

3.  π2 unit

4.  π4 unit

Subtopic:  Simple Harmonic Motion |
 68%
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A block of mass m is attached to a massless spring having a spring constant k. The other end of the spring is fixed from the wall of a trolley, as shown in the figure. Spring is initially unstretched and the trolley starts moving toward the direction shown. Its velocity-time graph is also shown.

              

The energy of oscillation, as seen from the trolley is:

1.  32m26k

2.  9m28k

3.  9m232k

4.  8m29k

Subtopic:  Combination of Springs |
 67%
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A body of mass \(20\) g is executing SHM with amplitude \(5\) cm. When it passes through the equilibrium position its speed is \(20\) cm/s. What would be the distance from equilibrium when its speed becomes \(10\) cm/s?
1. \(\frac{5\sqrt{3}}{4}\) cm

2. \(\frac{5\sqrt{3}}{2}\) cm

3. \(\frac{25\sqrt{7}}{2}\) cm

4. \(5\sqrt{3}\) cm

Subtopic:  Simple Harmonic Motion |
 73%
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For a simple harmonic oscillator, a velocity-time diagram is shown. The angular frequency of oscillation is:

                

1.  242 rad/s

2.  25π4 rad/s

3.  25 rad/s

4.  25π rad/s

Subtopic:  Simple Harmonic Motion |
 65%
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In an S.H.M, when the displacement is one-fourth of the amplitude, the ratio of total energy to the potential energy is 

1.  16: 1

2.  1: 16

3.  1: 8

4.  8: 1

Subtopic:  Energy of SHM |
 79%
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A particle executing S.H.M. Its displacement x varies with time t as x=8sin4t+6cos4t.  The maximum  velocity of the particle will be:

1.  20 unit

2.  10 unit

3.  40 unit

4.  5 unit

Subtopic:  Simple Harmonic Motion |
 80%
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The amplitude of oscillation for a particle executing S.H.M with angular frequency πrad/s and maximum acceleration 5π2 m/s2 is

1.  25 cm

2.  25 m

3.  5 cm

4.  5 m

Subtopic:  Angular SHM |
 72%
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Which of the following statements is true for an ideal simple pendulum?

1. The expression for the time period is true only for the oscillation of infinitely small amplitude.
2. The motion of the bob is rotatory.
3. The buoyancy of air has an appreciable effect on the motion of the bob.
4. All of these.
Subtopic:  Simple Harmonic Motion |
 50%
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