If an electron and a photon propagate in the form of waves having the same wavelength , it implies that they have the same

If a photon and an electron propagate in the form of waves, having the same wavelength, it implies that both of them have the same

If an electron and a photon have the same wavelength, then they will have the same

An electron and a proton are moving with same speed . Which will have more wavelength ?

If we consider electrons and photons of same wavelength , then they will have same

If an electron and proton when in motion have the same wavelength associated with each of them, which would be moving faster and why ?

If a proton and electron have the same de Broglie wavelength, then

The K.E. of electron and photon is same then relation between their De-Broglie wavelength :

A photon , an electron and a uranium nucleus all have the same wavelength . The one with the most energy

Consider the de Broglie wavelength of an electron and a proton. Which wavelength is smaller if the two particles have (a) the same speed (b) the same momentum (c) the same energy?

If the energy of the photon is (2 lambda_(p)mc)/(h) times the kinetic energy of the electron then show then the wavelength lambda of photon and the de Broglie wavelength of an electron have the same value (Where m, c and h have their usual meanings .)