Wavelength of the wave associated with a moving electron

When would the wavelength associated with an electron become equal to that with proton ? (Mass of electron = 9.10 xx 10^(-31) kg , Mass of proton =1.6725 xx 10^(-27)kg )

Dual nature of matter was proposed by de Broglie in 1923, it was experimentally verified by Davisson and Germer by diffraction experiment. Wave haracter of matter has significance only for microscopic particles. De Broglie wavelength (lambda) can be calculated using the relation, (lambda) = (h)/(m v) where 'm' and 'v' are the mass and velocity of the particle. The wavelength of matter waves associated with a body of mass 1000g moving with a velocity of 100m/sec is :

What is the de Broglie wavelength associated with an electron , accelerated through a potential difference of 100 volts ?

The engergy of separation of an electron in a Hydrogen like atom in excited state is 3.4 eV. The de-Broglie wave length (in A^@ ) associated with the electron is:

What is the de Broglie wavelength associated with (a) an electron moving with a speed of 5.4xx10^(6) m//s , and (b) a ball of mass 150 g travelling at 30.0 m//s ?

A proton is moving with kinetic energy 5xx10^(-27) . What is the wavelength of de Broglie wave associated with it? ("Mass of proton"=1.66xx10^(-27) kg, h=6.6xx10^(-34) Js)