Explanation Record the given data Volume of HCl = 275 .0 mL Molarity of HCl = 0 .300 M Molarity of NaOH (burette Y) = 0 .150 M Molarity of KOH (burette Z) = 0 .250 M Time reached for stoichiometric point = 60 .65 mins Total volume in the beaker at stoichiometric point = 655 mL The volume of HCl is recorded along with molarities of HCl , NaOH , KOH and the time reached and total volume as shown above. To volumes of burette Y and Z Let y= volume delivered by burette Y. z= volume delivered by burette Z. Moles of H + = volume of HCl×molarity of HCl Substitute the given values, 0 .2750L×0 .300 mol L -1 =0 .0825 mol H + Moles of OH - =y(0 .150 M)+z(0 .250 M)=0 .0825 mol H + Therefore, 0 .2750 L+y+z=0 .655 L y+z=0 .380 z=0 .380-y Substituting the values, we get y(0 .150)+(0 .380-y)(0 .250)=0 .0825 Solving the given equations, the volumes of y and z are obtained, y=0 .125 L z=0 .255 L Volume of NaOH (burette Y) = 125 mL Volume of KOH (Burette Z) = 255 mL The volumes of burette Y and Z are calculated by plugging in the values of moles of H + and OH - to the volume of HCl and molarities of solutions in burettes Y and Z

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Acid Base Titration

An acid-base titration is the method of quantitative analysis for determining the concentration of an acid and base by exactly neutralizing it with a standard solution of base or acid having known concentration.

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Chapter 6, Problem 133CP

Interpretation Introduction

Interpretation: The flow rates of two burettes Y and Z has to be calculated individually.

Concept Introduction: The flow rate of system can be calculated by taking in the volume of the system to the time taken. The flow rate of system can be given by,

Flow rate(mL min-1)=Volume of solution(in mL)Time taken for the flow(in mins)

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Chapter 6, Problem 132CP

Chapter 6, Problem 134CP

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Solution Summary: The author explains how the flow rates of two burettes Y and Z can be calculated by taking in the volume of the system to the time taken.

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