Respuesta :
Answer:
The transition which is associated with the greatest energy change is from n=1 to n=3.
Explanation:
[tex]E_n=-13.6\times \frac{Z^2}{n^2}ev[/tex]
where,
[tex]E_n[/tex] = energy of [tex]n^{th}[/tex] orbit
n = number of orbit
Z = atomic number
Energy of n = 1 in an hydrogen like atom:
[tex]E_1=-13.6\times \frac{Z^2}{1^2}eV=-13.6 Z^2 eV[/tex]
Energy of n = 2 in an hydrogen like atom:
[tex]E_2=-13.6\times \frac{Z^2}{2^2}eV=-3.40 Z^2 eV[/tex]
Energy of n = 3 in an hydrogen like atom:
[tex]E_3=-13.6\times \frac{Z^2}{3^2}eV=-1.51 Z^2 eV[/tex]
Energy of n = 5 in an hydrogen like atom:
[tex]E_5=-13.6\times \frac{Z^2}{5^2}eV=-0.544 Z^2 eV[/tex]
1) Energy change transition from n = 1 to n = 3 occurs .
Let energy change be E.
[tex]E=E_3-E_1=-1.51 Z^2 eV-(-13.6 Z^2 eV)=12.09 Z^2 eV[/tex] (absorption)
2) Energy change transition from n = 2 to n = 1 occurs .
Let energy change be E.
[tex]E=E_1-E_2=-13.6 Z^2 eV-(-3.40 Z^2 eV)=-10.2 Z^2 eV[/tex] (emission)
3) Energy change transition from n = 3 to n = 2 occurs .
Let energy change be E.
[tex]E=E_2-E_3=-3.40 Z^2 eV-(-1.51 Z^2 eV)=-1.89 Z^2 eV[/tex](emission)
4) Energy change transition from n = 3 to n = 5 occurs .
Let energy change be E.
[tex]E=E_5-E_3=-0.544 Z^2 eV-(-1.51 Z^2 eV)=0.966 Z^2 eV[/tex] (absorption)
Highest magnitude of energy corresponds to the greatest energy change.So,the transition which is associated with the greatest energy change is from n=1 to n=3.
