Respuesta :
Answer : The molarity of the AgNO₃ solution is 0.408 M
Answer :
The balanced chemical equation for the reaction between KCl and AgNO₃ is given below.
[tex]KCl + AgNO_{3} \rightarrow AgCl + KNO_{3}[/tex]
Step 1 : Find moles of KCl.
The mass of KCl is given as 785 mg. Let's convert this to grams.
[tex]785 mg \times \frac{1g}{1000 mg} = 0.785 g[/tex]
The molar mass of KCl is 74.55 g/mol
The moles of KCl can be calculated as,
[tex]mol KCl = \frac{grams}{MolarMass}[/tex]
[tex]mol KCl = \frac{0.785g}{74.55 g/mol} = 0.0105[/tex]
We have 0.0105 mol KCl
Step 2 : Find moles of AgNO₃.
The mole ratio of KCl and AgNO₃ is 1 : 1.
The moles of AgNO₃ can be calculated using this mole ratio.
[tex]mol AgNO_{3} = 0.0105 mol KCl \times \frac{1 mol AgNO_{3}}{1 mol KCl} = 0.0105[/tex]
We have 0.0105 mol AgNO₃.
Step 3 : Use molarity formula.
The molarity of AgNO₃ can be calculated as,
[tex]Molarity = \frac{mol AgNO_{3}}{L }[/tex]
The volume of AgNO₃ solution is 25.8 mL which is 0.0258 L.
[tex]Molarity = \frac{0.0105mol}{0.0258L} = 0.408 M[/tex]
The molarity of the AgNO₃ solution is 0.408 M.
