Answer:
They must weight 199.76 g of Ca[tex]Cl_{2}[/tex] and dilute it in a flask of 2.5 L.
Explanation:
We need to prepare the whole solution and at the end we will slip it in 10 beakers.
Data:
Number of beakers to prepare: 10
Each beaker requires: 250 mL
Total solution volume to prepare = Vt = 10 beakers * 250 mL = 2500 mL = 2.5 L
First step:
We need to use Molarity formula to get amount of solute to weight for the whole solution (Vt = 2.5 L)
Molarity (M) formula is:
[tex]M = \frac{mol CaCl_{2} }{Vt}[/tex]
where:
M: concentration of the solution expressed in Molarity (mol/L)
mol CaCl2: amount of solute expressed in mol
Vt: total volume of the solution to be prepared. Volume must be expressed in liters (L)
Step 2: Calculate amount of solute
We know concentration of the solution (M = 0.720 M) and also we know total volumen (Vt), then we will despejate mol of CaCl2 (quantity of solute):
[tex]mol CaCl_{2} = M * Vt[/tex]
[tex]mol CaCl_{2} = 0.72 M * 2.5 L = 1.8 mol[/tex]
Now we need to use molar mass of Ca[tex]Cl_{2}[/tex] (110.98 g/mol) to transform mol of [tex]CaCl_{2}[/tex] in grams of [tex]CaCl_{2}[/tex] :
[tex]gCaCl_{2} = mol CaCl_{2} * \frac{MM}{1 mol CaCl_{2} }[/tex]
[tex]gCaCl_{2} = 1.8 mol * \frac{110.98 g}{1 mol} = 199.76 g CaCl_{2}[/tex]
Finally, this group of students must weight 199.76 g Ca[tex]Cl_{2}[/tex] and dilute it in a flask of 2.5 L, then they will prepare a solution of Ca[tex]Cl_{2}[/tex] 0.72M. Then must be placed 250 mL of prepared solution in each beaker.
