Finding the Ration of Moles of Reactants in a Chemical ...
Finding the Ratio of Moles of Reactants in a Chemical Reaction
I. Introduction
A balanced chemical equation gives the mole ratios of reactants and products for chemical reactions. If the formulas of all reactants and products are known, it is relatively easy to balance an equation to find out what these mole ratios are. When the formulas of the products are not known, experimental measurements must be made to determine the ratios.
This experiment uses the method of continuous variations to determine the mole ratio of two reactants. Several steps are involved. First, solutions of the reactants are prepared in which the concentrations are known. Second, the solutions are mixed a number of times using different ratios of reactants. Third, some property of the reaction that depends on the amount of product formed or on the amount of the reactant that remains is measured. Since the experiment is designed so that the volume of solution is a constant for all measurements, the product formation will also be proportional to the quantity of reactants consumed.
In the method of continuous variations, the total number of moles of reactants is kept constant for the series of measurements. Each measurement is made with a different mole ratio of reactants. The optimum ratio, which is the stoichiometric ratio in the equation, should consume the greatest amount of reactants and therefore form the greatest amount of product.
II. Prelab Questions
The following values were obtained in a continuous variations experiment designed to find the coefficients in the equation for the reaction between 0.5 M solutions of AgNO3 and K2CrO4. One of the products is a precipitate.
|Exp |mL AgNO3 |mL K2CrO4 |Precipitate (g) |
|1 |5.0 |45.0 |1.7 |
|2 |15.0 |35.0 |5.0 |
|3 |25.0 |25.0 |8.3 |
|4 |30.0 |20.0 |10.0 |
|5 |35.0 |15.0 |9.9 |
|6 |40.0 |10.0 |6.6 |
|7 |45.0 |5.0 |3.3 |
You will need to write the answers for the following questions and submit prior to doing lab:
1. Graph the data above using the volumes on the x-axis and the precipitate on the y-axis.
2. Using two slopes on the graph identify where the optimal ratio of reactants exists.
3. Write a balanced chemical equation for this reaction. Does your data support the molar ratio found in your balanced chemical equation?
4. What product did you use to figure out the molar ratio for this experiment? What else can be used in chemical reactions as outcomes for assessing molar ratios by the continuous variations method?
5. Why is it important to keep concentrations and total volume constant between individual reactions?
6. Explain how this method allows you to find the mole ratio of the reactants.
7. Is it necessary that the concentrations of the two solutions be the same?
8. What is meant by the term limiting reagent?
9. Which reactant is the limiting reagent along the upward sloping line of your graph? Which is the limiting reagent along the downward sloping line?
10. What physical properties could be used as a continuous variations test?
11. Why is it more accurate to use the point of intersection of the two lines to find the molar ratio rather than the ratio associated with the greatest temperature change?
III. Materials & Methods
1. Chemicals: 0.5 M NaClO & ( 0.5 M KI or 0.5 M Na2S2O3 or 0.5 M Na2SO3)
2. Design a procedure that allows you to discern the molar ratios for the reactions between NaClO (oxidizing agent) and one of the reducing agents.
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