Calculate DeltaG for the reaction at 25^...

Calculate `DeltaG` for the reaction at `25^(@)C` when partial pressure of reactants `H_(2)`, `CO_(2)`, `H_(2)O` and `CO` are `10`, `20`, `0.02` and `0.01atm` respectively.
`H_(2(g))+CO_(2(g))hArrH_(2)O_((g))+CO_((g))`
Given `G_(f)^(@)` for `H_(2(g))`, `CO_(2(g))`, `H_(2)O_((g))` and `CO_((g))` are `0`, `-394.37`, `-228.58`, `-137.15 KJ` respectively.

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`5.61 kJ` ,

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What will be DeltaG for the reaction at 25^(@)C when partial pressures of reactants H_(2), CO_(2),H_(2)O and CO are 10, 20, 0.02 and 0.01 atm respectively. (Given : G_(H_(2)O)^(@)=-"228.58 kJ, "G_(CO)^(@)=-"137,15 kJ, "G_(CO)^(@)=-"394.37 kJ" .)

Calculate Delta_(f)H^(@) for the reaction, CO_(2)(g) + H_(2)(g) to CO(g) + H_(2)O(g) Given that Delta_(f)H^(@) for CO_(2)(g) , CO(g) and H_(2)O(g) are -393.5, -111.3 and -241.8 kJ mol^(-1) respectively.

Which of the following graphs are correct for the given reaction? H_(2(g))+CO_(2(g))hArrH_(2)O_((g))+CO_((g)) Assume initially only H_(2) and CO_(2) are present:

Calculate the equilibrium constant for the reaction, H_(2(g))+CO_(2(g))hArrH_(2)O_((g))+CO_((g)) at 1395 K , if the equilibrium constants at 1395 K for the following are: 2H_(2)O_((g))hArr2H_(2)+O_(2(g)) ( K_(1)=2.1xx10^(-13) ) 2CO_(2(g))hArr2CO_((g))+O_(2(g)) ( K_(2)=1.4xx10^(-12) )

Delta_(f)^(@) for CO_(2(g)), CO_((g)) and H_(2)O_((g)) are -393.5,-110.5 and -241.8kJ mol^(-1) respectively. The standard enthalpy change ( in kJ) for given reaction is : CO_(2(g))+H_(2(g)) rarr CO_((g))+H_(2)O_((g))

Delta H_(1)^(@) for CO_(2)(g) , CO(g) and H_(2)O(g) are -393.5,-110.5 and -241.8 kJ mol^(-1) respectively. Standard enthalpy change for the reacion CO_(2)(g)+H_(2)(g) rarr CO(g) + H_(2)O(g) is

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