A bar magnet has a period of oscillation T. If a similar brass piece of the same mass is placed over it, then the number of oscillations it makes in one second is
Two oscillating simple pendululs with time periods T and are in phase at a given time. They are again in phase after an elapse of time
4 T
3 T
6 T
5 T
Identify the wrong statement from the following
If the length of a spring is halved, the time period of each part becomes times the original
The effective spring constant K of springs in parallel is given by
The time period of a stiffer spring is less than that of a soft spring
The spring constant is inversely proportional to the spring length
The total energy of the particle executing simple harmonic motion of amplitude A is 100 J. At a distance of 0.707 A from the mean position, its kinetic energy is
25 J
50 J
100 J
12.5 J
A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is , its displacement from its mean position is
The ratio of amplitudes of two simple harmonic motions represented by the equations and is
1 : 1
2 : 1
5 : 2
5 : 4
D.
5 : 4
The displacement of a particle in SHM is m. When its displacement is 6 m, the velocity of the particle (in ms-1) is
8
24
16
10
Two pendulums of lengths 1.44 m and 1 m start to swing together. The number of vibrations after which they will again start swinging together is
4
3
5
2
The average total energy in one time period of a particle of mass m executing SHM of amplitude a and angular velocity ω is
0
mω2a2