8 Sb (s) + 10 HNO3 (aq) 4 Sb2O5 (s) + 5 N20 (g) + 5 H20 (1) -> If 120 g of HN03 is reacted, how many g of H2O is formed?

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8 Sb (s) + 10 HNO3 (aq)
4 Sb2O5 (s) + 5 N20 (g) + 5 H20 (1)
->
If 120 g of HNO3 is reacted, how many g of H20 is formed?
Write out the problem on paper showing all conversion factors, unit cancellations, calculations, s.f., etc. Answer the questions related to the setup and calculation for this
problem. Be sure to use our periodic table to calculate any molar masses needed (rounded to proper number of decimal places), otherwise your values might be slightly off
and answers may be marked as incorrect. Abbreviate units as follows: grams g, moles = mol.
Substance #1: information given; Substance #2: information calculated
Use the three blanks to enter the number, unit, and substance (in this order) that appears in the denominator of the stoichiometry conversion factor.
For the molar masses needed in this problem, use the two blanks to enter the value (rounded to proper dec places) and substance (in this order).
Substance #1:
g/mol
Substance #2:
g/mol
Use the three blanks to enter the number, unit, and substance (in this order) that appears in the denominator of the molar mass conversion factor for substance #1.
Calculate the answer and use the three blanks to report with value (decimal notation, including proper s.f.), units, and substance (in this order).
Transcribed Image Text:8 Sb (s) + 10 HNO3 (aq) 4 Sb2O5 (s) + 5 N20 (g) + 5 H20 (1) -> If 120 g of HNO3 is reacted, how many g of H20 is formed? Write out the problem on paper showing all conversion factors, unit cancellations, calculations, s.f., etc. Answer the questions related to the setup and calculation for this problem. Be sure to use our periodic table to calculate any molar masses needed (rounded to proper number of decimal places), otherwise your values might be slightly off and answers may be marked as incorrect. Abbreviate units as follows: grams g, moles = mol. Substance #1: information given; Substance #2: information calculated Use the three blanks to enter the number, unit, and substance (in this order) that appears in the denominator of the stoichiometry conversion factor. For the molar masses needed in this problem, use the two blanks to enter the value (rounded to proper dec places) and substance (in this order). Substance #1: g/mol Substance #2: g/mol Use the three blanks to enter the number, unit, and substance (in this order) that appears in the denominator of the molar mass conversion factor for substance #1. Calculate the answer and use the three blanks to report with value (decimal notation, including proper s.f.), units, and substance (in this order).
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