Question #85f29

2 Answers
Miguel F.
Apr 6, 2016

The answer is really easy. It just takes to use molarity definition to calculate it.

Explanation:

Molarity or molar concentration, MM is defined by:

M= {"number of solute moles"}/{"number of litres of disolution"}M=number of solute molesnumber of litres of disolution

We just must find the number of moles of solute, so:

"number of moles of solute" =number of moles of solute=
= 0.325 " M" cdot 1.85 " L" = 0,60125 " mol"=0.325 M1.85 L=0,60125 mol

Stefan V.
Apr 6, 2016

"0.601 moles"0.601 moles

Explanation:

A solution's molarity tells you how many moles of solute you get in one liter of solution.

In essence, molarity is a measure of concentration that deals with moles of solute and liters of solution. This means that a solution's molarity can be used as a conversion factor that can help you convert moles to liters of solution and vice versa.

In your case, the solution is said to have a molarity of

c = "0.325 M" = "0.325 mol L"^(-1)c=0.325 M=0.325 mol L1

This tells you that every liter of this solution will contain "0.3250.325 moles of solute.

Use this as a conversion factor to see how many moles you'd get in "1.85 L"1.85 L of solution

1.85 color(red)(cancel(color(black)("L solution"))) * overbrace("0.325 moles"/(1color(red)(cancel(color(black)("L solution")))))^(color(purple)("a molarity of 0.325 M")) = "0.60125 moles"

Rounded to three sig figs, the answer will be

"no. of moles of solute" = color(green)(|bar(ul(color(white)(a/a)0.601color(white)(a/a)|)))

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