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The approximate surface temperature of sun (in kelvin) is to be evaluated. Concept introduction: Wien’s law states that the relationship between the wavelength of maximum intensity ( λ max ) in blackbody radiation and the kelvin temperature of the radiating body ( T ) is as follows: λ max = b T Here, b is the Wien’s displacement constant ( 2.898 × 10 6 nm ⋅ K ) . The most intense emission ( λ max ) from sun occurs at 500 nm .

The approximate surface temperature of sun (in kelvin) is to be evaluated. Concept introduction: Wien’s law states that the relationship between the wavelength of maximum intensity ( λ max ) in blackbody radiation and the kelvin temperature of the radiating body ( T ) is as follows: λ max = b T Here, b is the Wien’s displacement constant ( 2.898 × 10 6 nm ⋅ K ) . The most intense emission ( λ max ) from sun occurs at 500 nm .

Solution Summary: The author explains that the approximate surface temperature of sun (in kelvin) is to be evaluated.

Chemistry

3rd Edition

ISBN: 9780073402734

Author: Julia Burdge

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Question

Chapter 6, Problem 1SEPP

Interpretation Introduction

Interpretation:

The approximate surface temperature of sun (in kelvin) is to be evaluated.

Concept introduction:

Wien’s law states that the relationship between the wavelength of maximum intensity (λmax) in blackbody radiation and the kelvin temperature of the radiating body (T) is as follows:

λmax=bT

Here, b is the Wien’s displacement constant (2.898×106 nm⋅K).

The most intense emission (λmax) from sun occurs at 500 nm.

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Chapter 6, Problem 137AP

Chapter 6, Problem 2SEPP

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Chapter 6 Solutions

Chemistry

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