A proton and an electron move with the same velocity. The associated wavelength for proton is :

A proton and an electron are moving with the same de-Broglie wavelength (consider the non-relativistic case). Then

A proton and an electron have same velocity. Which one has greater de-Broglie wavelength and why?

A proton and an electron both moving with the same velocity v enter into a region of magnetic field directed perpendicular to the velocity of the particles. They will now move in cirular orbits such that

Do protons and electrons have same mass?

If alpha particle, proton and electron move with the same momentum, them their respective de Broglie wavelengths lamda_(alpha),lamda_(p),lamda_(e) are related as

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

An electron is 2000 times lighter than a proton. An electron and a proton are moving with such a velocity that de-Broglie wave associated with them is 1Å. The ratio of their K.E. will be :

If an electron and a proton have the same KE , the ratio of the de Broglie wavelengths of proton and electron would approximately be

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]