When 125 ml of 0.5 M AgNO3 is added to 100ml of 0.3 M NH4CL how many grams of AgCl are formed
Answers
Answer:
Solution stoichiometry calculations involve chemical reactions taking place in solution.
Of the various methods of expressing solution concentration the most convenient for general
laboratory use is molarity, which is defined:
Moles of solute nsolute
Molarity = or M =
Liters of solution Lsoln
Chemical reactions are written in terms of moles of reactants and products; this molarity
concentration unit relates moles of solute to volume of solution. Thus, easily measured solution
volumes provide a simple method of measuring moles of reactants.
EXAMPLE: What is the molarity of a solution made by dissolving 5.67 g of potassium chloride
in enough water to make 100.0 mL of solution?
This data gives a relationship between amount of solute and volume of solution: 5.67 g KCl /
100.0 mL. To find molarity we must convert grams KCl to moles KCl and mL solution to L:
5.67 g KCl 1 mol KCl 1000 mL 0.760 mol KCl
x x = or 0.760 M KCl
100.0 mL 74.6 g KCl L L
Whenever the solution concentration is given in molarity, M, you must change to the equivalent
units, mol/L or mol/1000 mL, to use as a conversion factor.
EXAMPLE: What mass of solute is contained in 15.0 mL of a 0.760 M KCl solution?
The conversion sequence is:
mL solution → L solution → mol KCl → g KCl
1 L 0.760 mol KCl 74.6 g KCl
15.0 mL x x x = 0.850 g KCl
1000 mL L mol KCl
T-28
OR, use the conversion sequence:
mL solution → mol KCl → g KCl
0.760 mol KCl 74.6 g KCl
15.0 mL x x = 0.850 g
Explanation:
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