Can a hydrogen atom absorb a photon whose energy exceeds its binding energy?

Assertion: A hydrogen atom cannot absorb a photon whose energy is greater than 13.6 eV , its binding energy. Reason: The extra energy will manifest as KE of the electron.

For which of the following transitions would a hydrogen atom absorb a photon with longest wavelenght ?

An atom (not a hydrogen atom) absorbs a photon whose associated wavelength is 400 nm and then immediately emits a photon whose associated wavelength is 580 nm. How much net energy is absorbed by the atom in this process?

An atom (not a hydrogen atom) absorbs a photon whose associated frequency is 5.6x x 10^(14) Hz. By what amount does the energy of the atom increase?

When an electron in the hydrogen atom in ground state absorb a photon of energy 12.1eV , its angular momentum

In atension from state n to a state of excitation energy 10.19 eV , hydrogen atom emits a 4890 Å photon. Etermine the binding energy of the initial state.

An isolated hydrogen atom emits a photon of energy 9 eV. Find momentum of the photons

An isolated hydrogen atom emits a photon of energy 9 eV. Find momentum of the photons

In a sample of hydrogen atoms, all the atoms exist in two energy levels A and B. A is the ground level and B is some higher energy level. These atoms absorb photons of energy 2.7 eV and attain a higher energy level C.After this, these atoms emit photons of six different energies. Some of these photon energies are higher than 2.7 eV, some equal to 2.7 eV and some are loss than 2.7 eV. The atomic number of these atoms is