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2CH4(g)⟶C2H4(g)+2H2(g) Calculate the ΔH∘ for this reaction using the following thermochemical data: CH4(g)+2O2(g)⟶CO2(g)+2H2O(l) ΔH∘=−890.3kJ C2H4(g)+H2(g)⟶C2H6(g) ΔH∘=−136.3kJ 2H2(g)+O2(g)⟶2H2O(l) ΔH∘=−571.
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2CH4(g)⟶C2H4(g)+2H2(g)

Calculate the ΔH∘ for this reaction using the following thermochemical data:

CH4(g)+2O2(g)⟶CO2(g)+2H2O(l) ΔH∘=−890.3kJ
C2H4(g)+H2(g)⟶C2H6(g) ΔH∘=−136.3kJ
2H2(g)+O2(g)⟶2H2O(l) ΔH∘=−571.6kJ
2C2H6(g)+7O2(g)⟶4CO2(g)+6H2O(l) ΔH∘=−3120.8kJ
Express your answer to four significant figures and include the appropriate units.

User Evan Darwin
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2 Answers

6 votes

Answer:

a and c

Step-by-step explanation:

User Vtrubnikov
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5.3k points
0 votes

Answer : The enthalpy change for the reaction is, 201.9 kJ

Explanation :

According to Hess’s law of constant heat summation, the heat absorbed or evolved in a given chemical equation is the same whether the process occurs in one step or several steps.

According to this law, the chemical equation can be treated as ordinary algebraic expression and can be added or subtracted to yield the required equation. That means the enthalpy change of the overall reaction is the sum of the enthalpy changes of the intermediate reactions.

The balanced reaction of
CH_4 will be,


2CH_4(g)\rightarrow C_2H_4(g)+2H_2(g)
\Delta H^o=?

The intermediate balanced chemical reaction will be,

(1)
CH_4(g)+2O_2(g)\rightarrow CO_2(g)+2H_2O(l)
\Delta H_1=-890.3kJ

(2)
C_2H_4(g)+H_2(g)\rightarrow C_2H_6(g)
\Delta H_2=-136.3kJ

(3)
2H_2(g)+O_2(g)\rightarrow 2H_2O(l)
\Delta H_3=-571.6kJ

(4)
2C_2H_6(g)+7O_2(g)\rightarrow 4CO_2(g)+6H_2O(l)
\Delta H_4=-3120.8kJ

Now we will multiply the reaction 1 by 2, revere the reaction 2, reverse and half the reaction 3 and 4 then adding all the equations, we get :

(1)
2CH_4(g)+4O_2(g)\rightarrow 2CO_2(g)+4H_2O(l)
\Delta H_1=2* (-890.3kJ)=-1780.6kJ

(2)
C_2H_6(g)\rightarrow C_2H_4(g)+H_2(g)
\Delta H_2=-(-136.3kJ)=136.3kJ

(3)
H_2O(l)\rightarrow H_2(g)+(1)/(2)O_2(g)
\Delta H_3=-(1)/(2)* (-571.6kJ)=285.8kJ

(4)
2CO_2(g)+3H_2O(l)\rightarrow C_2H_6(g)+(7)/(2)O_2(g)
\Delta H_4=-(1)/(2)* (-3120.8kJ)=1560.4kJ

The expression for enthalpy of the reaction will be,


\Delta H^o=\Delta H_1+\Delta H_2+\Delta H_3+\Delta H_4


\Delta H=(-1780.6kJ)+(136.3kJ)+(285.8kJ)+(1560.4kJ)


\Delta H=201.9kJ

Therefore, the enthalpy change for the reaction is, 201.9 kJ

User Ovi
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