When electronic transition occurs from higher energy state to lower energy state with energy difference equal to AE electron volts, the wavelength of the line emitted is approximately equal to 12395 12395 a. -×10-10 m b. -×1010 m ΔΕ ΔΕ 12395 12395 ×10-10 cm d. -x10¹0 cm ΔΕ ΔΕ
When electronic transition occurs from higher energy state to lower energy state with energy difference equal to AE electron volts, the wavelength of the line emitted is approximately equal to 12395 12395 a. -×10-10 m b. -×1010 m ΔΕ ΔΕ 12395 12395 ×10-10 cm d. -x10¹0 cm ΔΕ ΔΕ
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter7: Atomic Structure And Periodicity
Section: Chapter Questions
Problem 23Q: What type of relationship (direct or inverse) e xists between wavelength, frequency, and photon...
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![When electronic transition occurs from higher energy
state to lower energy state with energy difference equal
to AE electron volts, the wavelength of the line emitted
is approximately equal to
12395
12395
a.
-×10-10 m
b.
-×1010 m
ΔΕ
ΔΕ
12395
12395
×10-10 cm
d.
-x10¹0 cm
ΔΕ
ΔΕ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F552aa2a9-e487-422b-824e-42e40c8d2d24%2Feca141d4-e503-4b24-85a8-5fb34ae7dccd%2Fcofugu_processed.png&w=3840&q=75)
Transcribed Image Text:When electronic transition occurs from higher energy
state to lower energy state with energy difference equal
to AE electron volts, the wavelength of the line emitted
is approximately equal to
12395
12395
a.
-×10-10 m
b.
-×1010 m
ΔΕ
ΔΕ
12395
12395
×10-10 cm
d.
-x10¹0 cm
ΔΕ
ΔΕ
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