The wavelength of a photon of momentum `6.6×10^(–24) Kg- m//s ` will be -

A particle of mass 9.1× 10^-31 kg is moving with 10^6 m/s has debroglie wavelength lambda_1 . A photon of momentum 10^-27 kg m/s has wavelength lambda_2 then lambda_1/ lambda_2 is

What will be the de Broglie wavelength associated with a proton of momentum 2.6xx10^(-22) "kg ms"^(-1) ?

The de-Broglie wavelength of a particle having a momentum of 2xx10^(-28) kg m//s is

If the deBroglie wavelength of an electron is equal to 10^(-3) times the wavelength of a photon of frequency 6xx10^(-14)Hz then the speed (in m/s) of electron is equal to: (Speed of light =3xx10^(8)m//s) Planck's constant =6.63xx10^(-34)J.s Mass of electron =9.1xx10^(-31)kg)

The momentum of a photon of energy 1 MeV in kg-m/s, will be

The momentum of a photon of energy 1 MeV "in" kg m//s will be

The momentum of a photon is 3.3xx10^(-29) kg-m/s. Its frequency will be

Calculate the energy of a photon with momentum 3.3xx10^(-13)kg-ms^(-1) . (given, planck's constant to be 6.6xx10^(-34)J-s )

Calculate the wavelength a particle of mass m = 6.6 xx 10^(-27) kg moving with kinetic energy 7.425 xx 10^(-13) J ( h = 6.6 xx 10^(-34) kg m^(2) s ^(-1)