Antimony is produced by heating powdered antimony trisulphide with iron and removing the molten antimony from the reaction vessel. If 1.8 kg of antimony trisulphide and 1.3 kg of iron are heated to give 0.9 kg of antimony. The reaction is as follows: Sb2S3 + 3Fe --> 2Sb + 3FeS The amount of percentage excess of the Excess Reactant is: The amount of percentage excess of the Excess Reactant is: 46.45% 52.77% 47.53% 69.75% The degree of completion of the reaction is: 46.45% 52.77% 47.53% 69.75% The percentage conversion of iron is: 46.45% 52.77% 47.53% 69.75%
Antimony is produced by heating powdered antimony trisulphide with iron and removing the molten antimony from the reaction vessel. If 1.8 kg of antimony trisulphide and 1.3 kg of iron are heated to give 0.9 kg of antimony. The reaction is as follows: Sb2S3 + 3Fe --> 2Sb + 3FeS The amount of percentage excess of the Excess Reactant is: The amount of percentage excess of the Excess Reactant is: 46.45% 52.77% 47.53% 69.75% The degree of completion of the reaction is: 46.45% 52.77% 47.53% 69.75% The percentage conversion of iron is: 46.45% 52.77% 47.53% 69.75%
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter3: Chemical Reactions
Section: Chapter Questions
Problem ISP: Aqueous solutions of ammonium sulfide and mercury(II) nitrate react and a precipitate forms. (a)...
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Antimony is produced by heating powdered antimony trisulphide with iron and removing the molten antimony from the reaction vessel. If 1.8 kg of antimony trisulphide and 1.3 kg of iron are heated to give 0.9 kg of antimony. The reaction is as follows:
Sb2S3 + 3Fe --> 2Sb + 3FeS
The amount of percentage excess of the Excess Reactant is:
The amount of percentage excess of the Excess Reactant is:
46.45%
52.77%
47.53%
69.75%
The degree of completion of the reaction is:
46.45%
52.77%
47.53%
69.75%
The percentage conversion of iron is:
46.45%
52.77%
47.53%
69.75%
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