Check by the method of dimensions, the formula ` v = (1)/(lambda)sqrt((K)/(d)),` where `upsilon` is velocity of longitudinal waves, `lambda` is wavelength of wave, K is coefficient of volume elasticity and d is density of the medium.

Check by the method of dimensions, the formula upsilo = (1)/(lambda)sqrt((K)/(d)), where upsilon is velocity of longitudinal waves, lambdas is wavelength of wave, K is coefficient of volume elasticity and d is density of the medium.

Check the dimensional consistency of the relation upsilon = (1)/(I) sqrt((P)/(rho)) where I is length, upsilon is velocity, P is pressure and rho is density,

If a wave of wavelength lambda is travelling in a medium with velocity V, then its frequency is

Check by the method of dimensions, whether the folllowing relation are dimensionally correct or not. (i) upsilon = sqrt(P//rho) , where upsilon is velocity. P is prerssure and rho is density. (ii) v= 2pisqrt((I)/(g)), where I is length, g is acceleration due to gravity and v is frequency.

A sine wave has an amplitude A and wavelength lambda . Let V be the wave velocity and v be the maximum velocity of a particle in the medium. Then

Check by the method of dimensions whether the following relations are true. (i) t=2pisqrt(l/g) , (ii) v=sqrt(P/D) where v= velocity of sound P=pressure D=density of medium . (iii) n=1/(2l)=sqrt(F/m) where n= frequency of vibration l=length of the string, F=stretching force m=mass per unit length of the string .

Velocity of sound is given by the expression, v= f xx lambda Where, v= velocity of the wave, f = frequency, lambda = wavelength Using the above information answer the following questions A tuning fork produces 256 waves in 2 seconds. The frequency of the tuning fork is

Velocity of transverse waves in strings is given by the formula V=sqrt((T)/(mu)) , where and mu are respectively