[Reference The overall reaction in a commercial heat pack can be represented as 4 Fe(s) +302(g) → 2 Fe,O, (s) AH=-1652 kJ %3D a. How much heat is released when 4.00 moles of iron are reacted with excess O2? Heat kJ %3D b. How much heat is released when 1.00 mole of Fe2O3 is produced? Heat kJ %3D c. How much heat is released when 1.30 g iron is reacted with excess O2? Heat kJ %3D d. How much heat is released when 10.8 g Fe and 1.90 g O2 are reacted? Heat kJ %3D

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[References]
The overall reaction in a commercial heat pack can be represented as
4 Fe(s) + 302(g) → 2 Fe,0, (s) AH =-1652 kJ
a. How much heat is released when 4.00 moles of iron are reacted with excess O2?
Heat =
kJ
b. How much heat is released when 1.00 mole of Fe2 O3 is produced?
Heat =
kJ
c. How much heat is released when 1.30 g iron is reacted with excess O2?
Heat =
kJ
d. How much heat is released when 10.8 g Fe and 1.90 g O2 are reacted?
Heat =
kJ
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Transcribed Image Text:Activity.do?locator=Dassignment-take [References] The overall reaction in a commercial heat pack can be represented as 4 Fe(s) + 302(g) → 2 Fe,0, (s) AH =-1652 kJ a. How much heat is released when 4.00 moles of iron are reacted with excess O2? Heat = kJ b. How much heat is released when 1.00 mole of Fe2 O3 is produced? Heat = kJ c. How much heat is released when 1.30 g iron is reacted with excess O2? Heat = kJ d. How much heat is released when 10.8 g Fe and 1.90 g O2 are reacted? Heat = kJ Submit Answer Try Another Version 5 item attempts remaining
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