The maximum kinetic energy of a simple pendulum is \(E.\) The maximum potential energy of the pendulum:

1. is equal to \(E.\)
2. is less than or \(E.\)
3. maybe equal to \(E.\)
4. is greater than \(E.\)

Subtopic:  Energy of SHM |
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A smooth narrow tunnel is dug along the chord of the earth. The  time period of vibration of a small ball dropped from one end of the tunnel is

                

1.  60 min

2.  84.6 min

3.  42.3 min

4.  30 min

Subtopic:  Simple Harmonic Motion |
 79%
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The time period of vibration of a uniform disc of mass 'M' and radius 'R' about an axis perpendicular to the plane of disc and passing from a point at a distance R2 from the center of the disc is:

1.  2π3R2g

2.  2π32Rg

3.  2π2R3g

4.  2π32Rg

Subtopic:  Simple Harmonic Motion |
 68%
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Two identical blocks each of mass 'M' are connected with springs of spring constant K and placed on a smooth surface as shown in the figure. When the blocks are in contact the springs are in its natural length. The collision between the masses is elastic. The frequency of vibration on disturbing the masses symmetrically in the directions of arrows and releasing them is

                 

1.  12πKM

2.  KM

3.  14πKM

4.  1πKM

Subtopic:  Combination of Springs |
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Two mutually perpendicular simple harmonic vibrations of the same frequency superimpose on each other. The amplitude of the two vibrations is different and they are different from each other in phase. The resultant of superposition is

1.  Parabola

2.  Straight line

3.  Elliptical

4.  Circular

Subtopic:  Types of Motion |
 55%
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Two equations of SHM are \(y_1 = a\sin(\omega t - \alpha)~\text{and}~y_2= b\cos(\omega t-\alpha).\) The phase difference between the two is:
1. \(0^\circ\)
2. \(\alpha^\circ\)
3. \(90^\circ\)
4. \(180^\circ\)

Subtopic:  Simple Harmonic Motion |
 86%
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A ring of radius R is hung by a nail on its periphery such that it can freely rotate in its vertical plane. The time period of the ring for small oscillations is:

1.  T = 2πRg

2.  T = πRg

3.  T = 2π2Rg

4.  T = 2π3R5g

Subtopic:  Simple Harmonic Motion |
 58%
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If the potential energy \(U\) \((\text{in J})\) of a body executing SHM is given by \(U = 20+ 10(\sin^2 100\pi t),\) then the minimum potential energy of the body will be:
1. Zero 2. \(30~\text{J}\)
3. \(20~\text{J}\) 4. \(40~\text{J}\)
Subtopic:  Energy of SHM |
 73%
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The equation of S.H.M. is given as x = Asin(0.02πt), where t is in seconds. With what time period the potential energy oscillates? 

1.  200 s

2.  100 s

3.  50 s

4.  10 s

Subtopic:  Energy of SHM |
 50%
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In a stationary lift, a spring-block system oscillates with a frequency \(f.\) When the lift accelerates, the frequency becomes \(f'\) . Then:

1. \(f'>f\)
2. \(f'<f\)
3. \(f'=f\)
4. any of the above depending on the value of the acceleration of the lift.
Subtopic:  Spring mass system |
 59%
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