Determine the minimum wavelength of a photon the can cause ionization of He ^(+) ion.

(a)Use the Bohr model to determine the ionization energy of the He^+ ion, which has a single electron. (b)Also calculate the maximum wavelength a photon can have to cause ionization.

(a)Use the Bohr model to determine the ionization energy of the He^+ ion, which has a single electron. (b)Also calculate the maximum wavelength a photon can have to cause ionization.

Determine frequency and wavelength of a photon having energy 1.3eW.

Determine the wavelength and frequency of a photon having energy of 3.2 eV

The minimum wavelength of photon is 5000 Å , its energy will be

Determine the minimum wavelength that hydrogen in its ground state can obsorb. What would be the next smaller wavelength that would work?

Determine the minimum wavelength that hydrogen in its ground state can obsorb. What would be the next smaller wavelength that would work?

A gas hydrogen like atoms can absorb radiations of 68eV . Consequently, the atoms emit radiations of only three different wavelengths. All the wavelengths are equal or smaller than that of the absorbed photon. ( a ) Determine the initial state of the gas atoms. ( b ) Identify the gas atoms. ( c ) Find the minimum wavelength of the emitted radiation. ( d ) Find the ionization energy and the respective wavelength for the gas atoms.

The maximum wavelength of radiation that can ionize a sodium atom is 2414 A the ionization energy of sodium per mole shall be