A simple pendulum with a metallic bob has a time period T. The bob is now immersed in a nonviscous liquid and the time period is found to be 5T. The ratio of the density of the metal to that of liquid is 

1.  1/4

2.  4/3

3.  5/4

4.  7/3

Subtopic:  Angular SHM |
 76%
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A particle executes SHM with time period \(T\). The time period of oscillation of total energy is:
1. \(T\)
2. \(2T\)
3. \(\dfrac{T}{2}\)
4. Infinite

Subtopic:  Energy of SHM |
 55%
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A particle is executing linear simple harmonic motion with an amplitude \(a\) and an angular frequency \(\omega.\) Its average speed for its motion from extreme to mean position will be:
1. \(\frac{a\omega}{4}\)
2. \(\frac{a\omega}{2\pi}\)
3. \(\frac{2a\omega}{\pi}\)
4. \(\frac{a\omega}{\sqrt{3}\pi}\)

Subtopic:  Linear SHM |
 56%
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The time period of oscillation of a simple pendulum of length equal to half of the diameter of the earth is about 

1.  60 minute

2.  84.6 minute

3.  42.3 minute

4.  24 hour

Subtopic:  Angular SHM |
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The time period of the given spring-mass system is:

              

1. \(2\pi \sqrt{\dfrac{m}{k}}\) 2. \(2\pi \sqrt{\dfrac{m}{2k}}\)
3. \(2\pi \sqrt{\dfrac{2m}{\sqrt{3}k}}\) 4. \(\pi \sqrt{\dfrac{m}{k}}\)
Subtopic:  Combination of Springs |
 76%
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The equation of simple harmonic motion is given by X = (4 cm)sin6.28 t + 5π3then maximum velocity of the particle in simple harmonic motion is: 

1.  25.12 m/s 

2.  25.12 cm/s 

3.  12.56 m/s 

4.  12.56 cm/s

Subtopic:  Simple Harmonic Motion |
 89%
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A spring pendulum is placed on a rotating table. The initial angular velocity of the table is \(\omega_{0}\) and the time period of the pendulum is \(T_{0}.\) If the the angular velocity of the table becomes \(2\omega_{0},\) then the new time period of the pendulum will be:
1. 
\(2T_{0}\)
2. \(T_0\sqrt{2}\)
3. the same
4. \(\dfrac{T_0}{\sqrt{2}}\)

Subtopic:  Angular SHM |
 71%
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If the vertical spring-mass system is dipped in a non-viscous liquid, then:

1. Only the mean position changes.
2. Only the time period changes.
3. Both the time period and mean position change.
4. Both the time period and mean position remain the same.
Subtopic:  Spring mass system |
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The displacement \( x\) of a particle varies with time \(t\) as \(x = A sin\left (\frac{2\pi t}{T} +\frac{\pi}{3} \right)\)The time taken by the particle to reach from \(x = \frac{A}{2} \) to \(x = -\frac{A}{2} \) will be:

1. \(\frac{T}{2}\) 2. \(\frac{T}{3}\)
3. \(\frac{T}{12}\) 4. \(\frac{T}{6}\)

Subtopic:  Phasor Diagram |
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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%
From NCERT
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