The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO 3 by mass has to be calculated. Concept Introduction: Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol ⋅ L − 1 . The equation for molarity is given as follows; Molarity (M) = Amount of solute in moles Volume of solution in liters Molar concentration of solute is used for calculating the amount of solute in solution as given below; n = c × V The equation to calculated the mass of solute dissolved in solution is given as follows; m = c M V Where, m is the mass of solute. c is the concentration of solution. M is the molar mass of solute. V is the volume of solution.

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Answer 1

Question

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

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Answer 2

Question

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

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Answer 3

Question

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

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Answer 4

Question

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

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Answer 5

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

Answer 6

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

Answer 7

Chapter F, Problem G.7E

Interpretation Introduction

Interpretation:

The mass of each component in the solution that is 510 g of aqueous solution containing 5.45 % of KNO3 by mass has to be calculated.

Concept Introduction:

Molarity of the solution is defined as the number of moles of solute that is dissolved in the volume of solution in liters. Unit of molarity is mol⋅L−1. The equation for molarity is given as follows;

    Molarity (M)=Amount of solute in molesVolume of solution in liters

Molar concentration of solute is used for calculating the amount of solute in solution as given below;

    n=c×V

The equation to calculated the mass of solute dissolved in solution is given as follows;

    m=cMV

Where,

    m is the mass of solute.

    c is the concentration of solution.

    M is the molar mass of solute.

    V is the volume of solution.

Answer 8

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Answer 9

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Answer 10

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Answer 11

Ch. F - Prob. A.1AST Ch. F - Prob. A.1BST Ch. F - Prob. A.2AST Ch. F - Prob. A.2BST Ch. F - Prob. A.3AST Ch. F - Prob. A.3BST Ch. F - Prob. A.4AST Ch. F - Prob. A.4BST Ch. F - Prob. A.5AST Ch. F - Prob. A.5BST

Solution Summary: The author defines molarity of the solution as the number of moles of solute that is dissolved in the volume of solution in liters.

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