In an excited state of hydrogen like atom an electron has total energy of `-3.4 eV`. If the kinetic energy of the electron is E and its de-Broglie wavelength is `lambda`, then

If the kinetic energy of a free electron doubles , its de - Broglie wavelength changes by the factor

The log - log graph between the energy E of an electron and its de - Broglie wavelength lambda will be

An electron, in a hydrogen like atom , is in excited state. It has a total energy of -3.4 eV, find the de-Broglie wavelength of the electron.

An electron in Bohr's hydrogen atom has an energy of -3.4 eV. The angular momentum of the electron is

An electron of a hydrogen like atom is in excited, state. If total energy of the electron is -4.6 eV, then evaluate (i) the kinetic energy and (ii) the de-Broglie wavelength of the electron .

The energy of the electron in the ground state of hydrogen atom is -13.6 eV . Find the kinetic energy of electron in this state.

Total energy of an electron in the hydrogen atom in the ground state is -13.6 eV. The potential energy of this electron is

Total energy of an electron in the hydrogen atom in the ground state is -13.6 eV. The potential energy of this electron is

The total energy of the electron in the first excited state of hydrogen is -3.4 eV . What is the kinetic energy of the electron in this state?

A proton and an electron have same kinetic energy. Which one has greater de-Broglie wavelength and why ?