The energy-level diagram for the atomic emission spectra of an unknown gas is presented in the diagram below. ▶ Part A Submit ✓ Correct Part B Previous Answers Part C n=4 After absorption of the yellow/green light, how many emission lines are possible? n=3 n=2 Initially, electrons are in both the ground and first excited state (n=1 and n=2). A beam of light hits the gas. This beam is a continuous spectrum of yellow/green light (from 495 nm to 590 nm) How many absorption line/s will there be in the spectra? 2 n=1 4.2 eV 2.4 eV 2.0 eV 0 ev byded GEVE OF Color Wavelength Frequency Photon energy violet 380-450 nm 668-789 THz 2.75-3.26 eV blue 450-495 nm 606-668 THz 2.50-2.75 V green 495-570 nm 526-606 THz 2.17-2.50 V yellow 570-590 nm 508-526 THz 2.10-2.17 V orange 590-620 nm 484-508 THz 2.00-2.10 V red 620-750 nm 400-484 THz 1.65-2.00 eV

The energy-level diagram for the atomic emission spectra of an unknown gas is presented in the diagram below.

For Part C ONLY!

After absorption of the yellow/green light, how many emission lines are possible?

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The energy-level diagram for the atomic emission spectra of an unknown gas is presented in the diagram below. ▶ Part A 2 Submit ✓ Correct Part B Part C Previous Answers After absorption of the yellow/green light, how many emission lines are possible? Initially, electrons are in both the ground and first excited state (n=1 and n=2). A beam of light hits the gas. This beam is a continuous spectrum of yellow/green light (from 495 nm to 590 nm) How many absorption line/s will there be in the spectra? IVE ΑΣΦ Submit Request Answer n=4 ? n = 3 n=2 n=1 4.2 eV 2.4 eV 2.0 eV 0 eV VE BE G EYE OS Color Wavelength Frequency violet 380-450 nm 668-789 THz blue 450-495 nm 606-668 THz green 495-570 nm 526-606 THz yellow 570-590 nm 508-526 THz orange 590-620 nm 484-508 THz red 620-750 nm 400-484 THz Photon energy 2.75-3.26 eV 2.50-2.75 eV 2.17-2.50 eV 2.10-2.17 eV 2.00-2.10 eV 1.65-2.00 eV