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The partial pressure of each gas in the given figure is needed to be determined where the numbers of each type of gas are 5 He , 3Ne and 2Ar . Concept introduction: Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone. Partial pressure of a gas in terms of its mole fraction and total pressure is, ` P A = χ A × P TOTAL A mole fraction of a molecule in a mixture is the ratio of number of moles of these molecules to sum of number of moles of all molecules in the mixture. The mole fractions can be related to molecule fractions. Equation for molecule fraction of molecule is, molecule fraction of a molecule = numbers of a molecule total number of molecules

The partial pressure of each gas in the given figure is needed to be determined where the numbers of each type of gas are 5 He , 3Ne and 2Ar . Concept introduction: Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone. Partial pressure of a gas in terms of its mole fraction and total pressure is, ` P A = χ A × P TOTAL A mole fraction of a molecule in a mixture is the ratio of number of moles of these molecules to sum of number of moles of all molecules in the mixture. The mole fractions can be related to molecule fractions. Equation for molecule fraction of molecule is, molecule fraction of a molecule = numbers of a molecule total number of molecules

Solution Summary: The author explains the partial pressure of each gas in a mixture of gases. The mole tion is the ratio of number of moles of these molecules to sum of all molecules in the mixture.

Chemistry

10th Edition

ISBN: 9781305957404

Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher: Cengage Learning

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Question

Chapter 5, Problem 87E

Interpretation Introduction

Interpretation: The partial pressure of each gas in the given figure is needed to be determined where the numbers of each type of gas are 5 He _, 3Ne and 2Ar .

Concept introduction:

Partial pressure of a gas in a mixture of gases is the pressure of that gas when it alone.

Partial pressure of a gas in terms of its mole fraction and total pressure is,

` PA = χA × PTOTAL

A mole fraction of a molecule in a mixture is the ratio of number of moles of these molecules to sum of number of moles of all molecules in the mixture. The mole fractions can be related to molecule fractions.

Equation for molecule fraction of molecule is,

molecule fraction of a molecule = numbers of a molecule total number of molecules

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Chapter 5, Problem 86E

Chapter 5, Problem 88E

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Done 11:14 ⚫ worksheets.beyondlabz.com 5 (a). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 6 5 (b). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 7 6. Are there any differences between the spectra you obtained in Beyond Labz and the predicted spectra? If so, what were the differences? <

2. Predict the NMR spectra for each of these two compounds by listing, in the NMR tables below, the chemical shift, the splitting, and the number of hydrogens associated with each predicted peak. Sort the peaks from largest chemical shift to lowest. **Not all slots must be filled** Peak Chemical Shift (d) 5.7 1 Multiplicity multiplate .......... 5.04 double of doublet 2 4.98 double of doublet 3 4.05 doublet of quartet 4 5 LO 3.80 quartet 1.3 doublet 6 Peak Chemical Shift (d) Multiplicity

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Chemistry

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