The amplitude of oscillation for a particle executing S.H.M with angular frequency rad/s and maximum acceleration is
1. 25 cm
2. 25 m
3. 5 cm
4. 5 m
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. |
A mass of 30 gm is attached with two springs having spring constants 100 N/m and 200 N/m and other ends of springs are attached to rigid walls as shown in the given figure. The angular frequency of oscillation is: (Ground is smooth)
1. rad/s
2. rad/s
3. 100 rad/s
4. 200 rad/s
If a bob of the simple pendulum having negative charge q is made to oscillate in a uniform electric field acting vertically upward direction, then its time period:
1. Increases
2. Decreases
3. No effect of the electric field
4. Decreases or increases
A simple pendulum of length l and bob of mass m is executing S.H.M with amplitude A. The maximum tension in the string will be
1.
2.
3.
4.
Find the percentage change in time period if the length of a simple pendulum is increased by 3%
1. 3%
2. 6%
3. 1.5%
4. 2.5%
A disc is oscillating about a horizontal axis passing through its rim and perpendicular to the plane of the disc. If the radius of the disc is R, then the frequency of oscillation is
1.
2.
3.
4.
The amplitude of a damped oscillator becomes one-third in 10 minutes and times of the original value in 30 minutes. The value of n is:
1. 81
2. 3
3. 9
4. 27
A particle is executing SHM with time period T. The time taken by it to travel from mean position to times its amplitude is equal to
1.
2.
3.
4.
A block of mass 2 kg is hanging with a massless spring and the spring is stretched by 40 cm. If the block is pulled down and released, then the period of oscillation is: (here, g = 10 )
1.
2.
3.
4.