Science

ChemistryPrinciples of Instrumental Analysis(a) Interpretation: The maximum wavelength of a blackbody at temperature 4500 K is to be determined by using Wien’s displacement law. Concept introduction: Wien’s law or Wien displacement law represents the relationship between the temperature and the maximum wavelength of a blackbody. This law is given as- λ max T = 2.90 × 10 3 Where λ max and T represents maximum wavelength and temperature in Kelvin respectively.Start your trial now! First week only $4.99!*arrow_forward*

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7th Edition

Douglas A. Skoog + 2 others

Publisher: Cengage Learning

ISBN: 9781305577213

Chapter 7, Problem 7.3QAP

Interpretation Introduction

**(a)**

**Interpretation:**

The maximum wavelength of a blackbody at temperature 4500 K is to be determined by using Wien’s displacement law.

**Concept introduction:**

Wien’s law or Wien displacement law represents the relationship between the temperature and the maximum wavelength of a blackbody.

This law is given as-

Where

Interpretation Introduction

**(b)**

**Interpretation:**

Wavelength maximum of a blackbody at temperature 2500 K is to be determined by using Wien’s displacement law.

**Concept introduction:**

Wien’s law or Wien displacement law represents the relationship between the temperature and the wavelength maximum of a blackbody.

This law is given as-

Where

Interpretation Introduction

**(c)**

**Interpretation:**

Wavelength maximum of a blackbody at temperature 1250 K is to be calculated by using Wien’s law.

**Concept introduction:**

Wien’s law or Wien displacement law represents the relationship between the temperature and the maximum wavelength of a blackbody.

This law is given as-

Where