Wavelength of a particular photon should be calculated. Concept introduction: Data given: Wavelength of a photon having E 1 energy = λ 1 = 820 nm Energy of the second photon = E 2 = 3 E 1 Formulae to use: E = h ν Where, E = energy of light h = Plank’s constant = 6.6254 × 10 − 34 Js ν = frequency of light For air or vacuum, ν = c λ Where, c = velocity of light in vacuum (3.00 × 10 8 m/s ) λ = wavelength of light

BuyFind

Principles of Instrumental Analysis

7th Edition
Douglas A. Skoog + 2 others
Publisher: Cengage Learning
ISBN: 9781305577213
BuyFind

Principles of Instrumental Analysis

7th Edition
Douglas A. Skoog + 2 others
Publisher: Cengage Learning
ISBN: 9781305577213

Solutions

Chapter 6, Problem 6.7QAP
Interpretation Introduction

Interpretation:

Wavelength of a particular photon should be calculated.

Concept introduction:

Data given:

Wavelength of a photon having E1 energy = λ1=820 nm

Energy of the second photon = E2=3E1

Formulae to use:

E = hν

Where,

E = energy of light

h = Plank’s constant = 6.6254×1034 Js

ν = frequency of light

For air or vacuum,

ν=cλ

Where,

c = velocity of light in vacuum (3.00 ×108 m/s )

λ = wavelength of light

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