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Science Chemistry Chemical Principles

Time taken by oven to boil water is to be determined. Also, number of photons absorbed is to be calculated. Concept introduction: Energy possessed by a single photon is termed as photon energy. Energy of photon is calculated as follows: E photon = h ν Or E photon = h c λ Where, E photon is energy of photon. h isplanck’s constant. ν is frequency of photon. c is speed of light. λ is wavelength of energy. Energy of photon is directly related to frequency but inversely related to wavelength of light. Heat required to change the temperature by 1 ° C per unit mass is termed as specific heat capacity.

Time taken by oven to boil water is to be determined. Also, number of photons absorbed is to be calculated. Concept introduction: Energy possessed by a single photon is termed as photon energy. Energy of photon is calculated as follows: E photon = h ν Or E photon = h c λ Where, E photon is energy of photon. h isplanck’s constant. ν is frequency of photon. c is speed of light. λ is wavelength of energy. Energy of photon is directly related to frequency but inversely related to wavelength of light. Heat required to change the temperature by 1 ° C per unit mass is termed as specific heat capacity.

Solution Summary: The author explains how time taken by oven to boil water and number of photons absorbed are to be calculated.

Chemical Principles

Chemical Principles

8th Edition

ISBN: 9781305581982

Author: Steven S. Zumdahl, Donald J. DeCoste

Publisher: Cengage Learning

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Chapter 12, Problem 132AE

Interpretation Introduction

Interpretation:Time taken by oven to boil water is to be determined. Also, number of photons absorbed is to be calculated.

Concept introduction:Energy possessed by a single photon is termed as photon energy. Energy of photon is calculated as follows:

Ephoton=hν

Or

Ephoton=hcλ

Where,

Ephoton is energy of photon.

h isplanck’s constant.

ν is frequency of photon.

c is speed of light.

λ is wavelength of energy.

Energy of photon is directly related to frequency but inversely related to wavelength of light.

Heat required to change the temperature by 1 °C per unit mass is termed as specific heat capacity.

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Chapter 12, Problem 131AE

Chapter 12, Problem 133AE

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Chapter 12 Solutions

Chemical Principles

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