Question #54da7

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Question #54da7

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Answer 1 · 2018-02-01T21:49:43

$= 1.4283 M$ $=1.4283M$

Explanation:

Assume the following data for the density of water and nitric acid.
$H N O_{3} = 1.42 g/ml$ $HNO_3=1.42" g/ml"$ $(concentrated$ $("concentrated"$ )
$H_{2} O = 1.00 g/ml$ $H_2O=1.00" g/ml"$ $(at 4^{o} C$ $("at " 4^oC$ )
Since the provided data are in grams, convert it to volume. Observe uniformity of units; i.e.,
$V_(HNO_3)=(630cancel(g))/((1.42cancel(g))/(ml))=443.6620mL~~443.7mL$
$V_(H_2O)=(6500cancel(g))/((1.00cancel(g))/(ml))=6500mL$
Find the volume of the solution. Note that volume solution is the summation of the volume of the solute and the solvent as shown below.
$"Volume"_("solution")="volume solute"+"volume solvent"$

$"Volume"_("solution")=443.7mL+6500mL$

$"Volume"_("solution")=6943.7cancel(mL)xx(1L)/(1000cancel(mL))=6.9437L~~7.0000L$
4. Find the mole value of nitric acid $(etaHNO_3)$ by taking the quotient of its $"mass"=630g$ against its $"molar mass"=63.012" g/mol"$ ; so that,
$eta=(mHNO_3)/(MmHNO_3)$
$eta=(630g)/((63.012g)/(mol))$
$eta=9.998mol$
5. From the formula $"Molarity"(M)=("number of moles"(eta))/("Li solution"(V)$ , find the concentration of the solution.
$M=eta/V$
$M=(9.998mol)/(7.0000L)$
$M=1.4283" mol/L"~~1.4283M$

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