Answer:
n = 3
Explanation:
Given the formula for the transition energy of an atom with 1 electron:
[tex]E=-13.6*Z^{2}*(\frac{1}{n_{f}^{2}}-\frac{1}{n_{i}^{2}} ) eV[/tex]
For the H transition n=5 to n=2:
[tex]E=-13.6*(\frac{1}{4}-\frac{1}{25} ) eV=-2.856 eV[/tex]
Then we solve for nf with Z=2 (Helium)
[tex]n_{f}=\sqrt{\frac{n_{i}^{2}*Z^{2}*13.6 eV }{2.856eV*n_{i}^{2}+13.6eV*Z^{2}} }[/tex]
[tex]n_{f}=\sqrt{\frac{4^{2}*2^{2}*13.6 eV }{2.856eV*4^{2}+13.6eV*2^{2}} }=3[/tex]
Is near 3, actually the energy of the transitions are:
H (5⇒2) = -2.85 eV = 434 nm (Dark blue)
He (4⇒3) = -2.64 eV = 469 nm (Light blue)
I thought it was cool to see the actual colors. Included them.
