The energy levels of one-electron ions are given by the equation En (-2.18 × 10-18 J) 2² where Z is atomic number and n is the energy level. The series in the He+ spectrum that corresponds to the set of transitions where the electron falls from a higher level to the nf = 4 state is called the Pickering series, an important series in solar astronomy. Calculate the Pickering series wavelength associated with the excited state n₁ = 8. λ = In which region of the electromagnetic spectrum does this transition fall? O O O O X-ray visible microwave gamma radio ultraviolet infrared m
The energy levels of one-electron ions are given by the equation En (-2.18 × 10-18 J) 2² where Z is atomic number and n is the energy level. The series in the He+ spectrum that corresponds to the set of transitions where the electron falls from a higher level to the nf = 4 state is called the Pickering series, an important series in solar astronomy. Calculate the Pickering series wavelength associated with the excited state n₁ = 8. λ = In which region of the electromagnetic spectrum does this transition fall? O O O O X-ray visible microwave gamma radio ultraviolet infrared m
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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Transcribed Image Text:The energy levels of one-electron ions are given by the equation
Z²
n²
En = (-2.18 x 10-18 J)
where Z is atomic number and n is the energy level.
The series in the Het spectrum that corresponds to the set of transitions where the electron falls from a higher level to the
nf = 4 state is called the Pickering series, an important series in solar astronomy. Calculate the Pickering series wavelength
associated with the excited state n₁ = 8.
λ =
In which region of the electromagnetic spectrum does this transition fall?
O X-ray
visible
microwave
gamma
radio
ultraviolet
infrared
m
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