A proton and an `alpha`-particle are accelerated through the same potential difference. The ratio of Broglie wavelength `lamda_(p)` to that of `lamda_(alpha)` is

A proton and an alpha - particle are accelerated through same potential difference. Then, the ratio of de-Broglie wavelength of proton and alpha-particle is

A proton and an alpha - particle are accelerated through same potential difference. Then, the ratio of de-Broglie wavelength of proton and alpha-particle is

A proton and an alpha -particle are accelerated, using the same potential difference. How are the de-Broglie wavelengths lambda_(p) and lambda_(a) related to each other?

An electron and a proton are accelerated through the same potential difference. The ratio of their de broglic wavelengths will be

An alpha - particle is accelerated through a potential difference of 100 V. Its de-Broglie's wavelength is

A proton and deuteron are accelerated by same potential difference.Find the ratio of their de-Broglie wavelengths.

An electron of mass m_e and a proton of mass m_p are accelerated through the same potential difference. The ratio of the de Broglie wavelength associated with an electron to that associated with proton is

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

Mention the significance of Davisson-Germer experiment. 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.

An alpha-"particle" is accelerated through a potential difference of V volts from rest. The de-Broglie's wavelengths associated with it is.