Part A
Weight of evaporating dish and watch glass
48.23 g
Weight of evaporating dish and watch glass and NaHCO3(s)
49.98 g
Actual weight of NaHCO3(s) reacted
1.75 g
Weight of evaporating dish and watch glass and NaCl(s)
49.11 g
Actual weight of NaCl(s) produced
0.88 g
Actual moles of NaHCO3(s) reacted
mol
Actual moles of NaCl(s) produced
mol
Theoretical weight of NaCl(s) produced
g
Theoretical moles of NaCl(s) produced
mol
% Yield
%
Part B
Weight of evaporating dish
36.89 g
Weight of evaporating dish and CuCO3*Cu(OH)2
39.33 g
Actual weight of CuCO3*Cu(OH)2 reacted
2.44 g
Weight of evaporating dish and watch glass and CuO(s)
38.83 g
Actual weight of CuO(s) produced
1.49 g
Actual moles of CuCO3*Cu(OH)2(s) reacted
mol
Actual moles of CuO(s) produced
mol
Theoretical weight of CuO(s) produced
g
Theoretical moles of CuO(s) produced
mol
% Yield
%
I have to balance the equations of two reactants: CuCO3*Cu(OH)2
Part A
Weight of evaporating dish and watch glass | 48.23 g |
Weight of evaporating dish and watch glass and NaHCO3(s) | 49.98 g |
Actual weight of NaHCO3(s) reacted | 1.75 g |
Weight of evaporating dish and watch glass and NaCl(s) | 49.11 g |
Actual weight of NaCl(s) produced | 0.88 g |
Actual moles of NaHCO3(s) reacted | mol |
Actual moles of NaCl(s) produced | mol |
Theoretical weight of NaCl(s) produced | g |
Theoretical moles of NaCl(s) produced | mol |
% Yield | % |
Part B
Weight of evaporating dish | 36.89 g |
Weight of evaporating dish and CuCO3*Cu(OH)2 | 39.33 g |
Actual weight of CuCO3*Cu(OH)2 reacted | 2.44 g |
Weight of evaporating dish and watch glass and CuO(s) | 38.83 g |
Actual weight of CuO(s) produced | 1.49 g |
Actual moles of CuCO3*Cu(OH)2(s) reacted | mol |
Actual moles of CuO(s) produced | mol |
Theoretical weight of CuO(s) produced | g |
Theoretical moles of CuO(s) produced | mol |
% Yield | % |
I have to balance the equations of two reactants: CuCO3*Cu(OH)2