Respuesta :
Answer:
b) 18.5 g
Explanation:
The first step is the calculation of number of moles of [tex]LiNO_3[/tex] with the molarity equation, so:
[tex]M=\frac{#~mol}{L}[/tex]
With the volume in "L" units (342.6 mL= 0.342 L ) we can find the moles, so:
[tex]0.783~M\frac{#~mol}{0.342~L}[/tex]
[tex]#~mol=~0.783*0.342=0.268~mol~LiNO_3[/tex]
Now, we have to calculate the molar mass to convert the moles to grams. For this we have to know the atomic mass of each atom:
Li ( 6.94 g/mol)
N (14 g/mol
O (16 g/mol)
With these values and the number of atoms in the molecule we can do the math:
(6.94 x 1) + ( 14 x 1) + (16 x 3 ) = 68.94 g/mol
The final step is the calculation of the grams, so:
[tex]0.268~mol~LiNO_3~\frac{69.94~g~LiNO_3}{1~mol~LiNO_3}=~18.5~g~LiNO_3[/tex]
We will need 18.5 g of LiNO3 to do a 0.783 M solution with a volume 342.6 mL.
