The mass of photon moving with the velocity of `3 xx 10^(8)m//sec` with wave length `3.6 A^(@)` is

The de - Broglie wavelength of a particle moving with a velocity 2.25 xx 10^(8) m//s is equal to the wavelength of photon. The ratio of kinetic energy of the particle to the energy of the photon is (velocity of light is 3 xx 10^(8) m//s

The de - Broglie wavelength of a particle moving with a velocity 2.25 xx 10^(8) m//s is equal to the wavelength of photon. The ratio of kinetic energy of the particle to the energy of the photon is (velocity of light is 3 xx 10^(8) m//s

A macroscopic dust particle of mass 0.01 mg is. moving with a velocity of 100 cm//sec . Calculate its wave length [h = 6.625 xx 10^-27 erg-sec.] will be wave phenomenon like diffraction be observed for the above particle? Justify your answer

The length of a moving scale is 6m, whose velocity is 2 xx 10^(7) m //s. Find its rest length

Find the de-Broglie wavelength (in Å) assciated with a photon moving with a velocity 0.5 c, where c=3xx10^(8)m//s , rest mass of proton =1.675xx10^(-27)kg, h=6.6xx10^(-34)Js .

A tennis ball of mass 60 g is moving with a velocity of 10 m/sec. Find the de Broglie wavelength of the ball approximately. (h = 6.63xx10^34J sec)

Calculate wavelength : (a) of electron moving with veloctiy of 10^(3)m//sec (b) of cricket ball moving with velocity of 10^(3)m//sec having mass 0.5 kg

Calculate wavelength : (a) of electron moving with veloctiy of 10^(3)m//sec (b) of cricket ball moving with velocity of 10^(3)m//sec having mass 0.5 kg

The De-Broglie wavelength of an electron moving with a velocity of 1.5xx10^8ms//s is equal to that of a photon The ratio of kinetic energy of the electron to that of the photon (c=3xx10^8m//s )