Calculate the accelerating potential that must be imparted to a proton beam to give it an effective wavelength of 0.005 nm?

What accelerating potential is needed to product as electron beat with on effecive wavelength of 0.090 Å

Find the accelerating potential (V) that must be imparted to a helium atom so that its wavelength is 5 Å (1 a.m.u. = 1.67 xx 10^(-24)g)

To what effective potential a proton beam be subjected to give its protons a wavelength of 1xx10^(-10)m .

A proton and deuteron are accelerated through the same accelerating potential. Which one of the two has (a) greater value of de-Broglie wavelength associated with it, and (b) less momentum? Give reasons to justify your answer.

A proton and alpha particle are accelerated through the same accelerating potential. Which one of the two has (a) greater value of de-broglie wavelength associated with it, and (b) less kinetic energy? justify your answer.

A proton and alpha particle are accelerated through the same accelerating potential. Which one of the two has (a) greater value of de-broglie wavelength associated with it, and (b) less kinetic energy? justify your answer.

A proton and alpha particle are accelerated through the same accelerating potential. Which one of the two has (a) greater value of de-broglie wavelength associated with it, and (b) less kinetic energy? justify your answer.

Calculate the momentum of a particle which has de Broglie wavelength of 0.1 nm.

A positron and a proton are accelerated by the same accelerating potential. Then the ratio of the associated wavelengths of the positron and the proton will be [M=Mass of proton, m=Mass of positron]

For what kinetic energy of a proton, will the associated de-Broglie wavelength be 16.5 nm?