The Haber-Bosch process involves the combination of nitrogen and hydrogen at high temperatures in the presence of a catalyst to produce ammonia. It is currently the main industrial source of ammonia. N2 (g) + 3 H2 (g) 2 NH3 (g) Assuming that a reaction vessel originally contains 0.200 moles of N2 and 0.750 moles of H2, answer each of the following questions: a) How many moles of NH3 could be produced from these quantities of N2 and H2 ? NH3 0.4 mol b) After the reaction is complete, how many moles of N2 would remain? N2 -0.05 mol c) After the reaction is complete, how many moles of H2 would remain? H2 0 moles

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The Haber-Bosch process involves the combination of nitrogen and hydrogen at high temperatures in the presence of a catalyst to produce ammonia. It
is currently the main industrial source of ammonia.
N2 (g) + 3 H2 (g) → 2 NH3 (g)
Assuming that a reaction vessel originally contains 0.200 moles of N2 and 0.750 moles of H2 , answer each of the following questions:
a) How many moles of NH3 could be produced from these quantities of N2 and H2 ?
NH3 0.4
mol
b) After the reaction is complete, how many moles of N2 would remain?
N2 -0.05
mol
c) After the reaction is complete, how many moles of H2 would remain?
H, 0
moles
Transcribed Image Text:The Haber-Bosch process involves the combination of nitrogen and hydrogen at high temperatures in the presence of a catalyst to produce ammonia. It is currently the main industrial source of ammonia. N2 (g) + 3 H2 (g) → 2 NH3 (g) Assuming that a reaction vessel originally contains 0.200 moles of N2 and 0.750 moles of H2 , answer each of the following questions: a) How many moles of NH3 could be produced from these quantities of N2 and H2 ? NH3 0.4 mol b) After the reaction is complete, how many moles of N2 would remain? N2 -0.05 mol c) After the reaction is complete, how many moles of H2 would remain? H, 0 moles
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