Statement-1 : When two vibrating tuning forks have `f_(1) = 300 Hz` and `f_(2) = 350 Hz` and held close to each other , beats cannot be heard

Statement-2 : The principle of superposition is valid only when `f_(1) - f_(2) lt 10 Hz`

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.

Statement-1 : Two tuning forkes having frequencies 410 Hz and 524 Hz are kept closed and made to vibrate. Beats will not be heard. because Statement-2 , Sound waves superimpose only when the frequencies of superposing waves are equal or nearly equal.

Statement-1 : The function f defined as f(x) = a^(x) satisfies the inequality f(x_(1)) lt f(x_(2)) for x_(1) gt x_(2) when 0 lt a lt 1 . and Statement-2 : The function f defined as f(x) = a^(x) satisfies the inequality f(x_(1)) lt f(x_(2)) for x_(1) lt x_(2) when a gt 1 .

Statement-1 : Let f(x) = |x^2-1|, x in [-2, 2] => f(-2) = f(2) and hence there must be at least one c in (-2,2) so that f'(c) = 0 , Statement 2: f'(0) = 0 , where f(x) is the function of S_1

Statement-1 : fog = gof rArr f^(-1) = g or g^(-1) = f . and Statement-2 : fog != gof .

A tuning fork vibrates at 264 Hz . Find the length of the shortest closed organ pipe that will resonate with the tuning fork. Speed of sound in air is 350ms^-1 .

A tuning fork A frequency 384Hz gives 6 beats in 2 seconds when sounded with another tuning fork B. What could be the frequency of B?

A person with vibrating tuning fork of frequency 338 Hz is moving towards a vertical wall with speed of 2 ms^(-1) Velocity of sound in air is 340 ms^(-1) The number of beats heard per second is

A tuning fork of frequency 200 Hz is in unison with a sonometer wire . How many beats are heard in 30 s if the tension is increased by 1% ( in terms of xx10 ]

The image of [-1,3] under f is not the interval [f(-1),f(3)] Statement-2: f is not an injective map.