Combustion of Hydrogen in a fuel cell at...

Combustion of Hydrogen in a fuel cell at 300K is represented as `2H_2(g)+O_2(g) to 2H_2O (g)` .
If `DeltaH and DeltaG` are
`-241.60 kJ "mol"^(-1)` and `-228.40 kJ " mol"^(-1)` are respectively for `H_2O` then the value of `DeltaS ` for the above process is

Spontaneous

Spontaneous and endothermic

Spontaneous and slow

Non spontaneous and slow

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Combustion of hydrogen in a fuel cell at 300 K is represented as 2H_(2(g))+O_(2(g)) rarr 2H_(2)O_((g)) . If Delta H and Delta G are -241.60 kJ mol^(-1) and -228.40 kJ mol^(-1) of H_(2)O . The value of DeltaS for the above process is

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Calculate the standard enthalpy change (in kJ "mol"^(-1) ) for the reaction H_(2)(g)+O_(2)(g)toH_(2)O_(2)(g) , given that bond enthalpy of H-H, O=O,O-H and O-O (in kJ "mol"^(-1) ) are respectively 438, 498, 464 and 138.

Combustion of Hydrogen in a fuel cell at 300K is represented as `2H_2(g)+O_2(g) to 2H_2O (g)` . If `DeltaH and DeltaG` are `-241.60 kJ "mol"^(-1)` and `-228.40 kJ " mol"^(-1)` are respectively for `H_2O` then the value of `DeltaS ` for the above process is

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Combustion of Hydrogen in a fuel cell at 300K is represented as `2H_2(g)+O_2(g) to 2H_2O (g)` .
If `DeltaH and DeltaG` are
`-241.60 kJ "mol"^(-1)` and `-228.40 kJ " mol"^(-1)` are respectively for `H_2O` then the value of `DeltaS ` for the above process is