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The reaction below was carried out in a calorimeter initially at 22.0 C. After 0.0180 g of iron reacted with 0.0100 g oxygen, the final temperature of the calorimeter was 30.6C. If the heat capacity of the entire calorimeter and solution was 12.0 J/C, what is the H of the reaction in units of kJ? (note the units on the calorimeter do not include mass)4Fe + 3O2 = 2Fe2O3

Respuesta :

SebasAime

Answer:

1280.71 kJ/mol

Explanation:

First we need to determine the limit reagent in order to how many initial compound reacted and later and much heat that reacted quantity produced:

[tex]0.0180 g Fe*\frac{1 mole Fe}{55.845 g Fe} *\frac{1}{4 moles Reacting Fe} =0.00008058[/tex]

[tex]0.0100 g O2*\frac{1 mole O2}{31.98 g O2} *\frac{1}{3 moles Reacting O2} =0.00010423[/tex]

The limit reagent is Iron.

Now to determine how much heat was generated by the reaction of those 0.0180 g Fe we take into account that the calorimeter is adiabatic and the heat produced by the reaction is the heat absorbed by the calorimeter and the solution:

[tex]Q(Calorimeter and solution)=-Q(Rxn)[/tex]

C*ΔT=-ΔH(rxn)*n

Where C is the Heat Capacity of the entire calorimeter and the solution and n is the number of moles reacting:

Then we solve for n:

[tex]H=\frac{C * T}{n} =\frac{12.0 J/C*8.6 C}{0.00008058 mol Fe} = 1280.71 kJ/mol[/tex]