Calculations: 1. Calculate the mass of silver nitrate put into the chemical reaction. 2. Calculate the moles of silver nitrate put into the chemical reaction. 3. Calculate the moles of copper wire put into the chemical reaction. Caution: What mass of copper wire should we start this calculation with? 4. Perform calculations to determine the limiting reactant for this chemical reaction. Indicate what the limiting reactant is for this reaction. 5. Calculate the mass of copper wire reacted. 6. Calculate the moles of copper wire reacted. 7. Calculate the mass of silver produced. 8. Calculate the moles of silver produced. 9. Calculate the molar ratio of moles of silver nitrate put into the chemical reaction (#2) to moles of silver produced (#8). Round to the nearest whole number. Hint: Do the division first, so that you have a value of one in the denominator and then round the decimal in the numerator to a whole number. 10. Calculate the molar ratio of moles of silver produced (#8) to moles of copper wire reacted (#6). Round to the nearest whole number. Hint: Do the division first, so that you have a value of one in the denominator and then round the decimal in the numerator to a whole number. 11. Fill in the following summary table that includes the molar ratios from the experimental data and also the accepted molar ratios from the balanced chemical reaction equation.

Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
Section: Chapter Questions
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Calculations:
1. Calculate the mass of silver nitrate put into the
chemical reaction.
2. Calculate the moles of silver nitrate put into the
chemical reaction.
3. Calculate the moles of copper wire put into the
chemical reaction. Caution: What mass of copper wire
should we start this calculation with?
4. Perform calculations to determine the limiting
reactant for this chemical reaction. Indicate what the
limiting reactant is for this reaction.
5. Calculate the mass of copper wire reacted.
6. Calculate the moles of copper wire reacted.
7. Calculate the mass of silver produced.
8. Calculate the moles of silver produced.
9. Calculate the molar ratio of moles of silver nitrate
put into the chemical reaction (#2) to moles of silver
produced (#8). Round to the nearest whole number.
Hint: Do the division first, so that you have a value of
one in the denominator and then round the decimal in
the numerator to a whole number.
10. Calculate the molar ratio of moles of silver
produced (#8) to moles of copper wire reacted (#6).
Round to the nearest whole number. Hint: Do the
division first, so that you have a value of one in the
denominator and then round the decimal in the
numerator to a whole number.
11. Fill in the following summary table that includes the
molar ratios from the experimental data and also the
accepted molar ratios from the balanced chemical
reaction equation.
Transcribed Image Text:Calculations: 1. Calculate the mass of silver nitrate put into the chemical reaction. 2. Calculate the moles of silver nitrate put into the chemical reaction. 3. Calculate the moles of copper wire put into the chemical reaction. Caution: What mass of copper wire should we start this calculation with? 4. Perform calculations to determine the limiting reactant for this chemical reaction. Indicate what the limiting reactant is for this reaction. 5. Calculate the mass of copper wire reacted. 6. Calculate the moles of copper wire reacted. 7. Calculate the mass of silver produced. 8. Calculate the moles of silver produced. 9. Calculate the molar ratio of moles of silver nitrate put into the chemical reaction (#2) to moles of silver produced (#8). Round to the nearest whole number. Hint: Do the division first, so that you have a value of one in the denominator and then round the decimal in the numerator to a whole number. 10. Calculate the molar ratio of moles of silver produced (#8) to moles of copper wire reacted (#6). Round to the nearest whole number. Hint: Do the division first, so that you have a value of one in the denominator and then round the decimal in the numerator to a whole number. 11. Fill in the following summary table that includes the molar ratios from the experimental data and also the accepted molar ratios from the balanced chemical reaction equation.
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