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The volume of 0.315 M N a O H solution that contains 6.22 g has to be calculated. Concept Introduction: The mass of the precipitate is depends on the reactant masses. Mole: The mole of the solute is calculated by multiplication of concentration of solution and volume of the solution and it is, Mole = Concentration (M)× volume (L) Molarity = No . of moles of solute Volume of solution in L Mass: The mass of solute present in the solution is given by multiplication of mole and molar mass of the solute. Mass = Mole × Molar mass

The volume of 0.315 M N a O H solution that contains 6.22 g has to be calculated. Concept Introduction: The mass of the precipitate is depends on the reactant masses. Mole: The mole of the solute is calculated by multiplication of concentration of solution and volume of the solution and it is, Mole = Concentration (M)× volume (L) Molarity = No . of moles of solute Volume of solution in L Mass: The mass of solute present in the solution is given by multiplication of mole and molar mass of the solute. Mass = Mole × Molar mass

Solution Summary: The author explains that the volume of 0.315M NaOH solution that contains 6.22g has to be calculated.

Chemistry

13th Edition

ISBN: 9781259911156

Author: Raymond Chang Dr., Jason Overby Professor

Publisher: McGraw-Hill Education

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Question

Chapter 4.5, Problem 8PE

Interpretation Introduction

Interpretation:

The volume of 0.315MNaOH solution that contains 6.22g has to be calculated.

Concept Introduction:

The mass of the precipitate is depends on the reactant masses.

Mole: The mole of the solute is calculated by multiplication of concentration of solution and volume of the solution and it is,

Mole = Concentration (M)× volume (L)

Molarity = No. of moles of soluteVolume of solution in L

Mass:

The mass of solute present in the solution is given by multiplication of mole and molar mass of the solute.

Mass = Mole × Molar mass

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