Question #c6c4e

Question

Question #c6c4e

1 Answer

Impact of this question

1959 views around the world

You can reuse this answer
Creative Commons License

Answer 1 · 2017-08-13T03:26:24

$molarity = 1.19$ $"molarity" = 1.19$ $M$ $M$

$molality = 1.13$ $"molality" = 1.13$ $m$ $m$

Explanation:

We're asked to find

the molarity
the molality

of a solution with density $1.1$ $1.1$ $kg/L$ $"kg/L"$ with a mole fraction of $NaOH$ $"NaOH"$ of $0.02$ $0.02$ .

MOLALITY:

Since the mole fraction is given as $0.02$ $0.02$ , we can set up the following relationship using the definition of mole fraction:

$mole fraction NaOH=0.02lmol NaOH0.02lmol NaOH+0.98lmol H2O=0.02$ $"mole fraction NaOH" = (0.02color(white)(l)"mol NaOH")/(0.02color(white)(l)"mol NaOH" + 0.98color(white)(l)"mol H"_2"O") = 0.02$

Since there are proportionally $0.98$ $0.98$ ${mol H}_{2} O$ $"mol H"_2"O"$ , we can use the molar mass of water to find the number of grams (and then kilograms) of water:

$0.98cancel("mol H"_2"O")((18.015cancel("g H"_2"O"))/(1cancel("mol H"_2"O")))((1color(white)(l)"kg H"_2"O")/(10^3cancel("g H"_2"O"))) = color(red)(ul(0.0177color(white)(l)"kg H"_2"O"$

We can now find the molality:

$"molality" = "mol solute"/"kg solvent" = (0.02color(white)(l)"mol NaOH")/(color(red)(0.0177color(white)(l)"kg H"_2"O")) = color(blue)(ulbar(|stackrel(" ")(" "1.13color(white)(l)m" ")|)$

$" "$

MOLARITY:

The equation for molarity is

$"molarity" = "mol solute"/"L solution"$

We can calculate the molarity from the molality if the solution's density is known (given as $1.1$ $"kg/L"$ $= 1.1$ $"g/mL"$ ).

What we need to do is convert the $0.02$ $"mol NaOH"$ to grams (using its molar mass), and add that value to the mass of water (equal to $17.7$ $"g"$ ) to find the total mass of solution:

$0.02cancel("mol NaOH")((40.00color(white)(l)"g NaOH")/(1cancel("mol NaOH"))) = color(red)(ul(0.800color(white)(l)"g NaOH"$

The total mass of the solution is thus

$"g solution" = color(red)(0.800color(white)(l)"g NaOH") + 17.7color(white)(l)"g H"_2"O" = color(green)(ul(18.5color(white)(l)"g solution"$

Now we use the density of the solution to calculate the number of liters:

$color(green)(18.5)cancel(color(green)("g soln"))((1cancel("mL soln"))/(1.1cancel("g soln")))((1color(white)(l)"L soln")/(10^3cancel("mL soln"))) = color(purple)(ul(0.0168color(white)(l)"L solution"$

And the molarity is thus

$"molarity" = (0.02color(white)(l)"mol NaOH")/(color(purple)(0.0168color(white)(l)"L solution")) = color(blue)(ulbar(|stackrel(" ")(" "1.19color(white)(l)M" ")|)$

Science

Math

Humanities

... and beyond

Question #c6c4e

1 Answer

Explanation:

Related questions

Impact of this question