Answer:
607 ppm
Explanation:
In this case we can start with the ppm formula:
[tex]ppm=\frac{mg~of~solute}{Litters~of~solution}[/tex]
If we have a solution of 0.0320 M, we can say that in 1 L we have 0.032 mol of [tex]F^-[/tex], because the molarity formula is:
[tex]M=\frac{mol}{L}[/tex]
In other words:
[tex]0.0320~M=\frac{mol}{1~L}[/tex]
[tex]mol=0.032~M*1~L=0.032~mol[/tex]
[tex]1~L~of~Solution=0.0320~mol~of~solute[/tex]
If we use the atomic mass of [tex]F[/tex] (19 g/mol) we can convert from mol to g:
[tex]0.0320~mol~F^-\frac{19~g~F^-}{1~mol~F^-}~=~0.607~g[/tex]
Now we can convert from g to mg (1 g= 1000 mg), so:
[tex]0.607~g\frac{1000~mg}{1~g}=607~mg[/tex]
Finally we can divide by 1 L to find the ppm:
[tex]ppm=\frac{607~mg}{1~L}=~607~ppm[/tex]
We will have a concentration of 607 ppm.
I hope it helps!
