The enthalpy change for the reaction using standard enthalpies has to be determined Concept Introduction: The standard enthalpy of formation is the enthalpy change for the formation of 1mol of the compound directly from its component elements in their standard states. Enthalpy change for the reaction Δ r H 0 = ΣnΔ f H 0 (products) - ΣnΔ f H 0 (reactants)
The enthalpy change for the reaction using standard enthalpies has to be determined Concept Introduction: The standard enthalpy of formation is the enthalpy change for the formation of 1mol of the compound directly from its component elements in their standard states. Enthalpy change for the reaction Δ r H 0 = ΣnΔ f H 0 (products) - ΣnΔ f H 0 (reactants)
The enthalpy change for the reaction using standard enthalpies has to be determined
Concept Introduction:
The standard enthalpy of formation is the enthalpy change for the formation of 1mol of the compound directly from its component elements in their standard states.
Enthalpy change for the reaction ΔrH0=ΣnΔfH0(products)-ΣnΔfH0(reactants)
(a)
Expert Solution
Explanation of Solution
Given,
ΔfH0(C)= 0 KJ/mol
ΔfH0(H2O)=-241.8kJ/mol
ΔfH0(CO)=-110.54kJ/mol
ΔfH0(H2)=0J/mol
Enthalpy change for the reaction ΔrH0=ΣnΔfH0(products)-ΣnΔfH0(reactants)
ΔrH° =(-110.54+0)-(0+-241.8)
ΔrH0=131.26 kJ/mol
So, the change in enthalpy of the reaction is 131.3kJ/mol
(b)
Interpretation Introduction
Interpretation:
The nature of the reaction has to be identified.
Concept Introduction:
The standard enthalpy of formation is the enthalpy change for the formation of 1mol of the compound directly from its component elements in their standard states.
Enthalpy change for the reaction ΔrH0=ΣnΔfH0(products)-ΣnΔfH0(reactants)
(b)
Expert Solution
Explanation of Solution
Given,
ΔfH0(C)= 0 KJ/mol
ΔfH0(H2O)=-241.8kJ/mol
ΔfH0(CO)=-110.54kJ/mol
ΔfH0(H2)=0J/mol
Enthalpy change for the reaction ΔrH0=ΣnΔfH0(products)-ΣnΔfH0(reactants)
ΔrH° =(-110.54+0)-(0+-241.8)
ΔrH0=131.26 kJ/mol
The change in enthalpy is +131.3kJ/mol, so it is endothermic reaction.
(c)
Interpretation Introduction
Interpretation:
The enthalpy change if 1000.0kg of carbon converted to water gas has to be calculated.
Concept Introduction:
The standard enthalpy of formation is the enthalpy change for the formation of 1mol of the compound directly from its component elements in their standard states.
Enthalpy change for the reaction ΔrH0=ΣnΔfH0(products)-ΣnΔfH0(reactants)
(c)
Expert Solution
Explanation of Solution
The change in enthalpy is +131.3kJ/mol,
Heat evolved when 1000Kg of carbon is converted to coal:
What is the pH of a solution made by adding 10-2 M sodium benzoate (C6H5COONa) to pure
water, taking into account nonideal solute behavior? Benzoate is the conjugate base of
benzoic acid (Ka = 6.25×10-5), a common preservative added to food and beverages.
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