SATHEE: Atoms And Nuclei Question 444

Atoms And Nuclei Question 444

The wavelength of the energy emitted when electron comes from fourth orbit to second orbit in hydrogen is $ 20.397,nm $ . The wavelength of energy for the same transition in $ H{{e}^{+}} $ is

Options:

A) $ 5.099\ c{{m}^{-1}} $

B) $ 20.497\ c{{m}^{-1}} $

C) $ 40.994\ c{{m}^{-1}} $

D) $ 81.988\ c{{m}^{-1}} $

Show Answer

Answer:

Correct Answer: A

Solution:

$ E( =\frac{hc}{\lambda } )\propto \frac{Z^{2}}{n^{2}} $
Þ $ \lambda \propto \frac{1}{Z^{2}} $ Hence $ {\lambda_{H{{e}^{+}}}}=\frac{20.397}{4}=5.099,\text{nm} $

Atoms And Nuclei Question 444

The wavelength of the energy emitted when electron comes from fourth orbit to second orbit in hydrogen is $ 20.397,nm $ . The wavelength of energy for the same transition in $ H{{e}^{+}} $ is

Options:

Answer:

Solution:

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Atoms And Nuclei Question 444

The wavelength of the energy emitted when electron comes from fourth orbit to second orbit in hydrogen is $ 20.397,nm $ . The wavelength of energy for the same transition in $ H{{e}^{+}} $ is

Options:

Answer:

Solution:

Engineering Preparation

Medical Preparation

NCERT Books & Solutions

Important Resources

Other Resources

Syllabus

Mentorship

JEE Chemistry

JEE PYQ Chapterwise

pyqs

resources

revision-hub

success-stories

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