The equation of a plane progressive wave is given by . The frequency of this wave would be :
(1)
(2)
(3) 100 Hz
(4) 50 Hz
In the given progressive wave equation, what is the maximum velocity of particle cm
(1) 5 cm/s
(2) 5π cm/s
(3) 10 cm/s
(4) 10.5 cm/s
Two waves of frequencies 20 Hz and 30 Hz travel out from a common point. The phase difference between them after 0.6 sec is :
(1) Zero
(2)
(3) π
(4)
A simple harmonic progressive wave is represented by the equation : where x and y are in cm and t is in seconds. At any instant the phase difference between two particles separated by 2.0 cm in the x-direction is :
(1) 18°
(2) 36°
(3) 54°
(4) 72°
The equation of progressive wave is . where x is in meter and t is in second. The velocity of wave is :
(1) 200 m/sec
(2) 100 m/sec
(3) 50 m/sec
(4) None of these
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
A wave travelling in positive X-direction with A = 0.2 m has a velocity of 360 m/sec. if λ = 60 m, then the correct expression for the wave is :
(1)
(2)
(3)
(4)
Two waves represented by the following equations are travelling in the same medium ,
The intensity ratio I1/I2 of the two waves is :
(1) 1 : 2
(2) 1 : 4
(3) 1 : 8
(4) 1 : 16
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 × 103 cm/sec
A transverse progressive wave on a stretched string has a velocity of 10 ms–1 and a frequency of 100 Hz. The phase difference between two particles of the string which are 2.5 cm apart will be :
(1)
(2)
(3)
(4)