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Science Chemistry EP INTRO.TO GENERAL,ORGANIC...-OWL ACCE

The boiling point of a solution should be determined. Concept introduction: The concepts which are used here are as follows: Boiling point: The temperature at which both the atmospheric pressure and vapor pressure becomes equal. Elevation in boiling point: The boiling point of a solution containing non volatile solute is greater than pure solvent, that increase in boiling point of solution in comparison to pure solvent is called elevation in boiling point. It is given by the following expression Δ T b = T b − T 0 b Molal elevation constant: It is defined as the elevation in boiling point when the molality of the solution is unity. It is denoted by K b . Solute: The component which is present in less amount in solution. Solvent: The component which is present in greater amount in solution. The relation between elevation in boiling point, molal elevation constant, molar mass of solute and solvent is as follows: Δ T b = 1000 × K b × W b W a × M b W H e r e W a = m a s s o f s O l v e n t W b = m a s s o f s o l u t e M b = m O l a r m a s s o f s o l u t e .

The boiling point of a solution should be determined. Concept introduction: The concepts which are used here are as follows: Boiling point: The temperature at which both the atmospheric pressure and vapor pressure becomes equal. Elevation in boiling point: The boiling point of a solution containing non volatile solute is greater than pure solvent, that increase in boiling point of solution in comparison to pure solvent is called elevation in boiling point. It is given by the following expression Δ T b = T b − T 0 b Molal elevation constant: It is defined as the elevation in boiling point when the molality of the solution is unity. It is denoted by K b . Solute: The component which is present in less amount in solution. Solvent: The component which is present in greater amount in solution. The relation between elevation in boiling point, molal elevation constant, molar mass of solute and solvent is as follows: Δ T b = 1000 × K b × W b W a × M b W H e r e W a = m a s s o f s O l v e n t W b = m a s s o f s o l u t e M b = m O l a r m a s s o f s o l u t e .

Solution Summary: The author explains that the boiling point of a solution should be determined by molal elevation constant, molar mass of solute and solvent.

EP INTRO.TO GENERAL,ORGANIC...-OWL ACCE

EP INTRO.TO GENERAL,ORGANIC...-OWL ACCE

12th Edition

ISBN: 9781337915984

Author: Bettelheim

Publisher: Cengage Learning

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Question

Chapter 6.8, Problem 6.12QC

Interpretation Introduction

Interpretation:

The boiling point of a solution should be determined.

Concept introduction:

The concepts which are used here are as follows:

Boiling point: The temperature at which both the atmospheric pressure and vapor pressure becomes equal.

Elevation in boiling point: The boiling point of a solution containing non volatile solute is greater than pure solvent, that increase in boiling point of solution in comparison to pure solvent is called elevation in boiling point. It is given by the following expression

ΔTb=Tb−T0b

Molal elevation constant: It is defined as the elevation in boiling point when the molality of the solution is unity. It is denoted by K_b .

Solute: The component which is present in less amount in solution.

Solvent: The component which is present in greater amount in solution.

The relation between elevation in boiling point, molal elevation constant, molar mass of solute and solvent is as follows:

ΔTb=1000×Kb×WbWa ×MbWHere Wa = mass of sOlventWb=mass of soluteMb=mOlar mass of solute.

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Chapter 6.8, Problem 6.11QC

Chapter 6.8, Problem 6.13QC

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Chapter 6 Solutions

EP INTRO.TO GENERAL,ORGANIC...-OWL ACCE

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