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The shortest wavelength of light of an electron from lithium atom while transition has to be calculated. Concept introduction: Bohr developed a rule for quantization of energy that could be applicable to the electron of an atom in motion. By using this he derived a formula for energy levels of electron in H-atom. E = -R H n 2 n = 1,2,3, ...... (For hydrogen atom) R H is Rydberg constant (2 .179 × 10 -18 J) . Eis energy level . n is principal quantum number . Relation between frequency and wavelength is, C = λν C is the speed of light . ν is the frequency. λ is wavelength. E = hν h is Planck’s constant ( 6 .63 × 10 -34 J .s ) which relates energy and frequency. ν is the frequency. E is energy of light particle.

The shortest wavelength of light of an electron from lithium atom while transition has to be calculated. Concept introduction: Bohr developed a rule for quantization of energy that could be applicable to the electron of an atom in motion. By using this he derived a formula for energy levels of electron in H-atom. E = -R H n 2 n = 1,2,3, ...... (For hydrogen atom) R H is Rydberg constant (2 .179 × 10 -18 J) . Eis energy level . n is principal quantum number . Relation between frequency and wavelength is, C = λν C is the speed of light . ν is the frequency. λ is wavelength. E = hν h is Planck’s constant ( 6 .63 × 10 -34 J .s ) which relates energy and frequency. ν is the frequency. E is energy of light particle.

Solution Summary: The author explains that Bohr developed a rule for quantization of energy that could be applicable to the electron of an atom in motion.

General Chemistry

General Chemistry

11th Edition

ISBN: 9781305859142

Author: Ebbing, Darrell D., Gammon, Steven D.

Publisher: Cengage Learning,

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Chapter 7, Problem 7.107QP

Interpretation Introduction

Interpretation:

The shortest wavelength of light of an electron from lithium atom while transition has to be calculated.

Concept introduction:

Bohr developed a rule for quantization of energy that could be applicable to the electron of an atom in motion. By using this he derived a formula for energy levels of electron in H-atom.

E = -RHn2 n = 1,2,3,......(For hydrogen atom)RH is Rydberg constant (2.179 × 10-18 J).Eis energy level.n is principal quantum number.

Relation between frequency and wavelength is,

C = λν

C is the speed of light.

ν is the frequency.

λ is wavelength.

E = hν

h is Planck’s constant ( 6.63 × 10-34 J.s ) which relates energy and frequency.

ν is the frequency.

E is energy of light particle.

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Chapter 7, Problem 7.106QP

Chapter 7, Problem 7.108QP

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