If e is the charge of an electron in esu m is the mass in grams and v the voltage 'h' is the planck constant in erg sec then the wavelength of the electron in cm is

The force of repulsion between two electrons kept at a distance of 1 m is F. if m is the mass of the electron, h is the planck's constant and c is the velocity of light, then the Rydberg's constant of

The angular momentum of an electron in the hydrogen atom is (3h)/(2pi) Here. h is Planck's constant. The kinetic energy of this electron is

If m is the mass of an electron and c the speed of light, the ratio of the wavelength of a photon of energy E to that of the electron of the same energy is

If m is the mass of an electron and c is the speed of light then the ratio of wavelength of a photon of energy E to that of the electron of the same energy is

Dimensions of ohm are same as that of (where h is Planck's constant and e is charge)

The energy of an electron having de-Brogilie wavelength lamda is (hwere, h=Plank's constant, m = mass of electron)

The ratio of magnetic dipole moment of an electron of charge e and mass m in the Bohr orbit in hydrogen to the angular momentum of the electron in the orbit is: