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The enthalpy change for chemical reactio...

The enthalpy change for chemical reaction is denoted aas `DeltaH^(Theta)` and `DeltaH^(Theta) = H_(P)^(Theta) - H_(R)^(Theta)`. The relation between enthalpy and internal energy is expressed by equation:
`DeltaH = DeltaU +DeltanRT`
where `DeltaU =` change in internal energy `Deltan =` change in number of moles, `R =` gas constant.
Which of the following equations corresponds to the definition of enthalpy of formation at `298K`?

A

`C("graphite") +2H_(2)(g) +1//2O_(2)(l) rarr CH_(3)OH(g)`

B

`C("diamond")+2H_(2)(g) +1//2O_(2)(g)rarr CH_(3)OH(l)`

C

`2C("graphite")+4H_(2)(g) +O_(2)(g) rarr 2CH_(3)OH(l)`

D

`C("graphite") +2H_(2)(g)+1//2O_(2)(g) rarr CH_(3)OH(l)`

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In enthalpy of formation, reactants and products must be in most stable standard state.
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The enthalpy change for chemical reaction is denoted aas DeltaH^(Theta) and DeltaH^(Theta) = H_(P)^(Theta) - H_(R)^(Theta) . The relation between enthalpy and internal enegry is expressed by equation: DeltaH = DeltaU +DeltanRT where DeltaU = change in internal enegry Deltan = change in number of moles, R = gas constant. Which of the following equations corresponds to the definition of enthalpy of formation at 298K ?

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