A wave equation that gives the displacement along y-direction is given by where x and y are in meter and t is time in seconds. This represented a wave :
(1) Of frequency Hz
(2) Of wavelength one metre
(3) Traveling with a velocity of ms–1 in the positive X-direction
(4) Traveling with a velocity of 100 ms–1 in the negative X-direction
Which of the following is not true for this progressive wave where y and x are in cm and t in sec
(1) Its amplitude is 4 cm
(2) Its wavelength is 100 cm
(3) Its frequency is 50 cycles/sec
(4) Its propagation velocity is 50 × cm/sec
The phase difference between two waves represented by where x is expressed in metres and t is expressed in seconds, is approximately:
(1) 1.5 rad
(2) 1.07 rad
(3) 2.07 rad
(4) 0.5 rad
A particle on the trough of a wave at any instant will come to the mean position after a time (T = time period)
(1) T/2
(2) T/4
(3) T
(4) 2T
Two sound waves (expressed in CGS units) given by and interfere. The resultant amplitude at a place where the phase difference is π/2 will be :
(1) 0.7 cm
(2) 0.1 cm
(3) 0.5 cm
(4)
The amplitude of a wave represented by displacement equation will be
(1)
(2)
(3)
(4)
When a tuning fork of frequency 341 is sounded with another tuning fork, six beats per second are heard. When the second tuning fork is loaded with wax and sounded with the first tuning fork, the number of beats is two per second. The natural frequency of the second tuning fork is :
(1) 334
(2) 339
(3) 343
(4) 347
When two sound waves are superimposed, beats are produced when they have :
(1) Different amplitudes and phases
(2) Different velocities
(3) Different phases
(4) Different frequencies
It is possible to hear beats from the two vibrating sources of frequency :
(1) 100 Hz and 150 Hz
(2) 20 Hz and 25 Hz
(3) 400 Hz and 500 Hz
(4) 1000 Hz and 1500 Hz