Force on a particle \(F\) varies with time \(t\) as shown in the given graph. The displacement \(x\) vs time \(t\) graph corresponding to the force-time graph will be:
          

1. 2.
3. 4.

Subtopic:  Linear SHM |
 67%
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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%
From NCERT
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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 |
 75%
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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 |
 73%
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