What number of mole and mass of silver oxide, Ag2O, is required to produce 17.85 g of silver sulfadiazine, AgC10H9N4SO2, from the reaction of silver oxide and sulfadiazine? Molecular mass of C10 H10 N4 SO2, Ag2O, AgC10H9N4SO2 and H2O are 250, 232, 357 and 18.0 amu. 2C10 H10 N4 SO2 + Ag2 O⟶2AgC10 H9 N4 SO2 + H2 O (a) Number of mole: (b)Mass:
What number of mole and mass of silver oxide, Ag2O, is required to produce 17.85 g of silver sulfadiazine, AgC10H9N4SO2, from the reaction of silver oxide and sulfadiazine? Molecular mass of C10 H10 N4 SO2, Ag2O, AgC10H9N4SO2 and H2O are 250, 232, 357 and 18.0 amu. 2C10 H10 N4 SO2 + Ag2 O⟶2AgC10 H9 N4 SO2 + H2 O (a) Number of mole: (b)Mass:
Chemistry: The Molecular Science
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ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter2: Chemical Compounds
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Problem 95QRT: Nitrogen fixation in the root nodules of peas and other legumes occurs with a reaction involving a...
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What number of mole and mass of silver oxide, Ag2O, is required to produce 17.85 g of silver sulfadiazine, AgC10H9N4SO2, from the reaction of silver oxide and sulfadiazine?
Molecular mass of C10 H10 N4 SO2, Ag2O, AgC10H9N4SO2 and H2O are 250, 232, 357 and 18.0 amu.
2C10 H10 N4 SO2 + Ag2 O⟶2AgC10 H9 N4 SO2 + H2 O
(a) Number of mole:
(b)Mass:
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