Meseley's aquation for the determination of wavelength of X rays is `(v = ` frequency of wave `Z = ` nuclear charge, a and b are constants)

Determine the wave speed of a wave that has a wavelength of 4 mm and a frequency of 3Hz.

For a photon having wavelength 2000Å , calculate a. wave number b. frequency.

If an electron behaves like a wave, what should determine the wavelength and frequency of this wave.

(a) What is the relation of wavelength (lamda) of a sound wave with its speed (v) and frequency (v) ? (b) How is the time period (T) related to the frequency of a wave ?

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 Calculate the wavelength of radio waves of frequency 10^(9) Hz. The speed of radio waves is 3 xx 10^(8)m//s

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 The wavelength of the wave generated by a tuning fork of frequency 256 Hz. velocity of sound in air at ordinary conditions is 340 m//s is

Consider the wave y = (10 mm) sin[(5picm^(-1))x-(60pis^(-1))t + (pi)/(4)] . Find (a) the amplitude (b) the wave number (c) the wavelength (d) the frequency f the time period and (f) the wave velcity (g) phase constant of SHM of particle at x = 0 .

The relation between frequency n wavelength lambda and velocity of propagation v of wave is