Two vibrating bodies have frequencies 10 Hz and 12 Hz. They start oscillating in the sáme phase. In 3 seconds how many time they will be (i) in the same phase and (ii) in the opposite phase ?

Two pendulum of time periods 3 s and 7 s respectively start oscillating simultaneously from two opposite extreme positions. After how much time they will be in same phase?

The rope shown at an instant is carrying a wave travelling towards right, created by a source vibrating at a frequency n . Consider the following statements I. The speed of the wave is 4n xx ab II. The medium at a will be in the same phase as d after (4)/(3n)s III. The phase difference between b and e is (3pi)/(2) Which of these statements are correct

Two pendulums X and Y of time periods 4 s and 4.2s are made to vibrate simultaneously. They are initially in same phase. After how many vibration of X , they will be in the same phase again ?

Two sinusoidal wave having the same frequency and travelling in the same direction are combined. What is the amplitude of the resultant motion if their amplitudes are 3cm and 4cm and they differ in phase by pi//2 radian?

Two tunig forks of frequency 250Hz and 256Hz produce beats. If a maximum is observed just now, after how much time the next maximum is observed at the same place?

Two waves, each having a frequency of 100 Hz and a wavelength of 2.0 cm, are travelling in the same direction on a string. What is the phase difference between the waves (a) if the second wave was produced 0.015 s later than the first one at the same place, (b) if the two waves were produced at the same instant but the first one was produced a distance 4.0 cm behind the second one ? (c) If each of the waves has an amplitude of 2.0 mm, what would be the amplitudes of the resultant waves in part (a) and (b) ?

Assertion : When two vibrating tuning forks having frequencies 256Hz and 512Hz are held near each other , beats can not be heard . Reason : The principle of superposition is valid only if the frequencies of the oscillators are nearly equal.

Two waves, each having a frequency of 100 Hz and a wavelength of 2.0 cm, are travelling in the same direction on a string. What is the phase difference between the waves if the second wave was produced 0.015 s later than the first one at the same place,

Two simple pendulums have time period 4s and 5s respectively. If they started simultaneously from the mean position in the same direction, then the phase difference between them by the time the larger one completes one oscillation is

Two simple pendulums of length 0.5 m and 20 m, respectively are given small linear displacement in one direction at the same time. They will again be in the phase when the pendulum of shorter length has completed oscillations.