An electron of mass 'm', when accelerated through a potential V has de-Broglie wavelength `lambda`. The de-Broglie wavelength associated with a proton of mass M accelerated through the same potential difference will be:

An electrono of mass m, when accelerated through a potential difference V, has de-Broglie wavelength lambda . The de-Broglie wavelength associated with a proton of mass M accelerated through the same potential difference, will be:

An electron of mass m when accelerated through a potential difference V has de - Broglie wavelength lambda . The de - Broglie wavelength associated with a proton of mass M accelerated through the same potential difference will be

An electron of mass m when accelerated through a potential difference V, has de Broglie wavelength lambda . The de Broglie wavelength associated with a proton of mass M accelerated through the same potential difference, will be :-

Statement-1: An electron of mass m when accelerated through a potential difference V , has de-broglie wavelength lambda . The de-broglie wavelength associated with a proton of mass M accelerated through the same potential difference will be lambdasqrt(M//m) . Statement-2: de-broglie wavelength lambda=h/(sqrt(2meV)) .

The ratio of de-Broglie wavelength associated with a proton and a mu -particle accelerated through the same potential difference 'V' is

A proton accelerated through a potential V has de-Broglie wavelength lamda . Then, the de-Broglie wavelengthof an alpha-particle, when accelerated through the same potential V is

The De broglie wavelength associated with protons accelerated through V volt will be :

What is the de-Broglie wavelength associated with an electron accelerated through a potential of 100V ?

An electron is accelerated through a potential of 120 V. Find its de Broglie wavelength