Draw careful to scale an energy-level diagram for Li²+ with the levels n = 1, 2, 3, ∞ shown and energies labeled. Use arrows to indicate the following transitions on the diagram: (a) Highest energy transition of the Paschen series. n = ∞ to 3 (b) Shortest wavelength (or highest energy) transition of the Balmer series: n = ∞ to 2. (c) Highest frequency (or highest energy) transition of the Lyman series: n = ∞ to 1

Draw careful to scale an energy-level diagram for Li²+ with the levels n = 1, 2, 3, ∞ shown and energies labeled. Use arrows to indicate the following transitions on the diagram: (a) Highest energy transition of the Paschen series. n = ∞ to 3 (b) Shortest wavelength (or highest energy) transition of the Balmer series: n = ∞ to 2. (c) Highest frequency (or highest energy) transition of the Lyman series: n = ∞ to 1

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Question

Please, help with drawing. Thank you!

**Problem 4: Atomic Spectra – Energy Diagram**

Draw an energy-level diagram to scale for Li²⁺ with the levels n = 1, 2, 3, ∞ shown, and energies labeled. Use arrows to indicate the following transitions on the diagram:

(a) Highest energy transition of the Paschen series: \( n = \infty \to 3 \)

(b) Shortest wavelength (or highest energy) transition of the Balmer series: \( n = \infty \to 2 \)

(c) Highest frequency (or highest energy) transition of the Lyman series: \( n = \infty \to 1 \)

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Step 1: Energy level for Li+2 according to Bohr model

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Step 2: Highest energy transition for Paschen Series and Shortest wavelength transition for Balmer Series

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Step 3: Highest energy transition for Lymen Series

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