The first five energy levels of the hydrogen atom are at −13.6 eV, −3.4 eV, −1.51 eV, −0.85 eV, and −0.54 eV. The emission spectrum of a hydrogen plasma lamp is a set of bright lines corresponding to all the possible transitions between these five levels. Sketch the far ultraviolet part of the spectrum you would expect from 80 nm wavelength to 130 nm. You should provide an x-axis with tickmarks and labels in nm, and label each bright line with its wavelength. Show your calculations of the wavelengths.

The first five energy levels of the hydrogen atom are at −13.6 eV, −3.4 eV, −1.51 eV, −0.85 eV, and −0.54 eV. The emission spectrum of a hydrogen plasma lamp is a set of bright lines corresponding to all the possible transitions between these five levels. Sketch the far ultraviolet part of the spectrum you would expect from 80 nm wavelength to 130 nm. You should provide an x-axis with tickmarks and labels in nm, and label each bright line with its wavelength. Show your calculations of the wavelengths.

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Question

The first five energy levels of the hydrogen atom are at −13.6 eV, −3.4 eV,
−1.51 eV, −0.85 eV, and −0.54 eV. The emission spectrum of a hydrogen plasma lamp is a set of bright lines corresponding to all the possible transitions between these five levels.
Sketch the far ultraviolet part of the spectrum you would expect from 80 nm wavelength to 130 nm. You should provide an x-axis with tickmarks and labels in nm, and label each bright
line with its wavelength. Show your calculations of the wavelengths.

Expert Solution