EBK CHEMICAL PRINCIPLES
8th Edition
ISBN: 8220101425812
Author: DECOSTE
Publisher: Cengage Learning US
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Chapter 4, Problem 29E
Interpretation Introduction
Interpretation: The molar concentration of final solution, if it is prepared from taking
Concept introduction: The molarity of any substance in a solution is equivalent to concentration. It is obtained from the moles of solute present in per unit volume of the solution.
The formula to calculate the molarity in a solution is as follows.
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O A
C12H17COOH(ag) + H2OM → C12H17CO0'(aq) + H3O*(aq)} K =
[C;;H1¬CO0"][H30*].
[C1,H17COOH][H=0]
0.55%
%3D
OB.
+ C12COO(ag) + H3O*(aq); K=
[C1;;H17C00"][H,o*j.
[C2H17COOH]
C12COOH(a) + H2O¶
0.55%
C12COOH(ag) + H2O) → C12COO (aq) + H30*(aq), K =
[C1;H3;C00"][H30*].
[C,2H17COOH][H=0]
0.0022
%3D
[CH1,CO0"][H30*].
[C1H17COOH]
Go
O D. C12H17COOH + H2O C12H17CO0* +
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0.55%
%3D
A pure organic compound has the formula C4H8SOx. A sample of a compound wasdecomposed; the sulfur was converted to sulfate and titrated in a modified version of theadsorption indicator procedure. From the following data, determine the correct formula forthe compound.Given: weight of sample = 12.64 mgBa(ClO4)2 needed for titration = 10.60 mL of 0.0100 M Ba(ClO4)2
Chapter 4 Solutions
EBK CHEMICAL PRINCIPLES
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