A transition in the Balmer series for hydrogen has an observed wavelength of 434 nm. What is the energy of this transition in kJ/mole? kJ/mole Use the Rydberg equation below to find the energy level that the transition originated. Transitions in the Balmer series all terminate in n = 2. ΔE=−2.178×10−18J (1n2final−1n2initial) = ninitial Your answer should not have a decimal place
A transition in the Balmer series for hydrogen has an observed wavelength of 434 nm. What is the energy of this transition in kJ/mole? kJ/mole Use the Rydberg equation below to find the energy level that the transition originated. Transitions in the Balmer series all terminate in n = 2. ΔE=−2.178×10−18J (1n2final−1n2initial) = ninitial Your answer should not have a decimal place
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter5: Electron Configurations And The Periodic Table
Section: Chapter Questions
Problem 35QRT
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A transition in the Balmer series for hydrogen has an observed wavelength of 434 nm.
What is the energy of this transition in kJ/mole? kJ/mole
Use the Rydberg equation below to find the energy level that the transition originated. Transitions in the Balmer series all terminate in n = 2.
ΔE=−2.178×10−18J (1n2final−1n2initial) = ninitial
Your answer should not have a decimal place
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