An electron (mass m) and a proton (mass M) are accelerated with same potential difference, then

An alpha -particle and a proton are accelerated through the same potential difference. Find the ratio of de Broglie wavelengths.

An electron of mass m and charge e is accelerated from rest through a potential difference V in vacuum. Its final speed will be

An electron (mass m, charge -e), accelerated through a potential difference V, enters normally a uniform magnetic field B. What will be the radius of the circular motion of the electron ?

An electron and a proton are accelerated through the same potential. Which one of the two has (i) greater value of de Broglie wavelength associated with it and (ii) less momentum? Justify your answer.

An electron of mass 'm' is accelerated by a potential difference V and the corresponding de-Broglie wavelength is lamda The de Broglie wavelength of a proton of mass M if it is accelerated by the same potential difference is.

A proton and an electron initially at rest are accelerated by the same potential difference. Assuming that a proton is 2000 times heavier than an' electron, what will be the relation between the de Broglie wavelength of the proton (lambda_(p)) and that of electron (lambda_(e)) ?

An alpha -particle and a proton are accelerated from rest thruogh the same potential difference and both enter a uniform perpendicular magnetic field. Find the ratio of their radii of curvature.

A proton and an alpha particle are accelerated through the same potential difference. Which one of the two has greater de Broglie wavelength,

A proton and an alpha particle are accelerated through the same potential difference. Which one of the two has less kinetic energy? Justify your answer.

An alpha -particle and a proton are accelerated from rest through the same potential difference V. Find the ratio of de Broglie wavelengths associated with them.