A hydrogen atom in the n-6 state decays to the n-2 state. What is the wavelength of the photon that the hydrogen atom emits? Use hc-1240 nm ev. nm While in the first excited state, a hydrogen atom is illuminated by various wavelengths of light. What happens to the hydrogen atom when illuminated by each wavelength? 434.2 nm? -pick one- 439.2 nm? -pick one- 352.2 nm? -pick one- Note: For a transition between bound states (finite n) you need to match the correct wavelength to about 8 significant figures. For this problem, treat a transition as happening if the wavelength is within 1.0 nm.

A hydrogen atom in the n-6 state decays to the n-2 state. What is the wavelength of the photon that the hydrogen atom emits? Use hc-1240 nm ev. nm While in the first excited state, a hydrogen atom is illuminated by various wavelengths of light. What happens to the hydrogen atom when illuminated by each wavelength? 434.2 nm? -pick one- 439.2 nm? -pick one- 352.2 nm? -pick one- Note: For a transition between bound states (finite n) you need to match the correct wavelength to about 8 significant figures. For this problem, treat a transition as happening if the wavelength is within 1.0 nm.

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PRACTICE ANOTHER
A hydrogen atom in the n-6 state decays to the n=2 state. What is the wavelength of the photon that the hydrogen atom emits?
Use hc=1240 nm eV.
nm
MY NOTES
While in the first excited state, a hydrogen atom is illuminated by various wavelengths of light. What happens to the hydrogen
atom when illuminated by each wavelength?
434.2 nm? -pick one-
439.2 nm? -pick one-
0
352.2 nm? -pick one-
Note: For a transition between bound states (finite n) you need to match the correct wavelength to about 8 significant figures. For
this problem, treat a transition as happening if the wavelength is within 1.0 nm.

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