The ionization potential of the hydrogen atom is $13.6 volt$ . The energy required to remove an electron from the second orbit of hydrogen is:

Question

The ionization potential of the hydrogen atom is 13-6 eV- What is the energy required to remove an electron from the n-2 state of the hydrogen atom-

Toppr Admin · Accepted Answer

Given-The ionization potential of hydrogen atom -13-6-xA0-eV-We know that-E-n-x2212-13-6n2-xA0-eV-atom-Here- the electron is to be removed from n-2- Therefore-x394-E-E-x221E-x2212-E-2-x394-E-0-x2212-x2212-13-622-x394-E-13-64-x394-E-3-4-xA0-eV-xA0-Hence- this is the required-result-

The ionization potential of the hydrogen atom is 13.6 eV. What is the energy required to remove an electron from the n=2 state of the hydrogen atom.

Given: The ionization potential of hydrogen atom =13.6 eV We know that, E(n)=−13.6n2 eV/atom Here, the electron is to be removed from n=2. Therefore, ΔE=E(∞)−E(2) ΔE=0−(−13.622) ΔE=13.64 ΔE=3.4 eV Hence, this is the required result.

The ionization potential of the hydrogen atom is $13.6 e V$ . What is the energy required to remove an electron from the $n = 2$ state of the hydrogen atom.