According to maxwell's theiory of electrodnamics, an electron going in a circle should emit redastion of frequency equal to the frequency of revolution what should be the wavelength of the radiation emitted by a hydrogen atom in ground state if this rule is follewed?

According to Maxwell's theory of electrodynamics, an electron going in a circle should emit radiation of frequency equal to the frequency of revolution what should be the wavelength of the radiation emitted by a hydrogen atom in ground state if this rule is followed?

According to Maxwell's theory of electron dynamics, an electron going in a circle should emit radiation of frequency equal to its frequency of revolution. What should be the wavelength of the radiation emitted by a hydrogen atom in the ground state if this rule is followed?

calculate the frequency of revolution of the electron in the ground state of hydrogen atom.

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state.

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state.

Electrons of energy 12.09 eV can excite hydrogen atoms . To which orbit is the electron in the hydrogen atom raisd and what are the wavelengths of the radiations emitted as it dropes back to the ground state?

Electrons of energy 12.09 eV can excite hydrogen atoms . To which orbit is the electron in the hydrogen atom raisd and what are the wavelengths of the radiations emitted as it dropes back to the ground state?

What should be the ratio of minimum to maximum wavelength of radiation emitted by transition of an electron to ground state of Bohr's hydrogen atom ?