Two sound sources produce progressive waves given by
`y_(1) = 6 cos 100 pi t`
and `y_(2) = 4 cos 102 pi t`
near the ears of an observer.
He will hear

Two standing bodies producing progressive waves are given by y_(1) = 4 sin 400 pi t and y_(2) = 3 sin 404 pi t One of these bodies situated very near to the ears of a person who will hear :

Two sounding bolies are producing progressive waves given by y_(1) = 2 sin (400 pi t) and y_(2) = sin (404 pi t) where t is in second, which superpose near the ears of a persion. The person will hear

Two vibrating tuning forks produce progressive waves given by , y_(1) = 4 sin (500 pi t) and y_(2) = 2 sin (506 pi t) . These tuning forks are held near the ear of person . The person will hear

Two vibrating tuning fork produce progressive waves given by y_(1) = 4 sin 500 pi t and y_(2) = 2 sin 506 pi t . Number of beats produced per minute is :-

Two vibrating tuning forks producing waves given by y_(1) = 27 "sin" 600 pi t "and" y_(2) = 27 "sin" 604 pi t are held near the ear of a person, how many beats will be heard in three seconds by him ?

Two sounding bodies are producing progressive waves given by y_1 = 4 sin (400 pi t) and y_2 = 3 sin (404 pi t) , where t is in second which superpose near the ears of a person. The person will hear

Two vibrating tuning fork produce progressive waves given by y_(1)=4 sin(500 pit) and y_(2)=2 sin(506 pi t) . These tuning forks are held near the ear of a person. The person will hear alpha beats/s with intensity ratio between maxima and minima equal to beta . Find the value of beta-alpha .

Beats are produced by two waves y_(1) = a sin 2000 pi t and y_(2) = a sin 2008 pi t The number of beats heard per second is

Determine the resultant of two waves given by y_(1) = 4 sin(200 pi t) and y_(2) = 3 sin(200 pi t + pi//2) .

Two sources of sound placed close to each other are wmitting progressive waves given by y_1=4sin600pit and y_2=5sin608pit . An observer located near these two sources of sound will hear: