824.2 kJ x (29.0/2*molar mass Fe2O3) = ?+kJ energy.
The sign of dH is +; therefore, it must be an absorption of energy. Calculate how much. It should be one of c,d,or e.
Consider the following reaction:
2Fe2O3 --> 4Fe + 3O2
∆Hrxn° = +824.2 kJ
The decomposition of 29.0 g of Fe2O3 results in
a. the release of 150 kJ of heat
b. the release of 12000 kJ of heat
c. the absorption of 12000 kJ of heat
d. the absorption of 150 kJ of heat
e. the absorption of 74.8 kJ of heat
f. the release of 74.8 kJ of heat
5 answers
Thank you DrBob222
34.7Kj
Using stoichiometry, we get:
(Amount of grams of Fe₂O₃ decomposed) x (1 mol Fe₂O₃/ Molar mass of Fe₂O₃ in grams) x (824.2 kJ/2 mol Fe₂O₃)
= 36.0 g Fe₂O₃ x (1 mol Fe₂O₃/ 159.69 g Fe₂O₃) x (824.2 kJ/2 mol Fe₂O₃)
= (29.0 x 824.2)/(159.69 x 2)
= 74.83812386 kJ
Since the sign of ΔH is positive, energy is absorbed.
The correct answer is E, which is the absorption of 74.8 kJ of heat.
(Amount of grams of Fe₂O₃ decomposed) x (1 mol Fe₂O₃/ Molar mass of Fe₂O₃ in grams) x (824.2 kJ/2 mol Fe₂O₃)
= 36.0 g Fe₂O₃ x (1 mol Fe₂O₃/ 159.69 g Fe₂O₃) x (824.2 kJ/2 mol Fe₂O₃)
= (29.0 x 824.2)/(159.69 x 2)
= 74.83812386 kJ
Since the sign of ΔH is positive, energy is absorbed.
The correct answer is E, which is the absorption of 74.8 kJ of heat.
how can calculate the number of grams of zinc that must react with an excess of hno3 to form 29.1g nh4no3
1 answer