`Be^(3+)` and a proton are accelerated by the same potential, their de`-` Broglie wavelengths have the ratio ( assume mass of proton `=` mass of neutron `) :`

For a proton accelerated through V volts , de Broglie wavelength is given as lambda =

The ratio of the mass of the proton to the mass of the electron is

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

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

A proton is accelerated through 225 V . Its de Broglie wavelength is

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

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

An electron of mass m has de Broglie wavelength lambda when accelerated through a potential difference V . When a proton of mass M is accelerated through a potential difference 9V, the de Broglie wavelength associated with it will be (Assume that wavelength is determined at low voltage ) .

Electron are accelerated through a potential difference V and protons are accelerated through a potential difference of 4 V. The de-Broglie wavelength are lamda_e and lamda_p for electrons and protons, respectively The ratio of lamda_e/lamda_p is given by ( given , m_e is mass of electron and m_p is mass of proton )