Since 569324 mL = 569.324 L which is much more than 1.33 L that means it cannot be diluted to a volume of 1.33 L, so this must be 569.324 mL.
This question is solved by using the dilution equation which is : [tex] M_{1}V_{1}=M_{2}V_{2} [/tex]
Where [tex] M_{1} [/tex] = Initial concentration
[tex] V_{1} [/tex] = Initial volume
[tex] M_{2} [/tex] = Final concentration
[tex] V_{2} [/tex] = Final volume
In our question , the given information is : V1 = 569.324 mL
M2 = 4.87 M and V2 = 1.33 L and we need to find [tex] M_{1} [/tex].
When we use dilution equation we need to make sure that both the units of volume have same units.
[tex] V_{1} [/tex] is in 'mL' and [tex] V_{2} [/tex] is in 'L' , so we will first convert [tex] V_{1} [/tex] into 'L'
[tex] V_{1} [/tex] = [tex] (569.324 mL)\times (\frac{1 L}{1000 mL}) [/tex]
[tex] V_{1} [/tex] = 0.569324 L
Now we will plug in the values of [tex] V_{1},M_{2},V_{2} [/tex] , in dilution equation and will calculate the value of [tex] M_{1} [/tex].
[tex] M_{1}V_{1} = M_{2}V_{2} [/tex]
[tex] M_{1}\times 0.569324 L = 4.87 M\times 1.33 L [/tex]
[tex] M_{1} = \frac{(4.87 M\times 1.33 L)}{0.569324 L} [/tex]
[tex] M_{1} [/tex] (Initial concentration) = 11.38 M
