A fuel cell develops an electrical potential from the combustion of butane at 1 bar and 298 K
`C_4H_(10)(g)+6.5O_2(g)to4CO_2(g)+5H_2O(l), /_\_rG^(@)=-2746kJ//mol`
what is `E^(@)` of a cell?

A fuel cell develops an electrical potential from the combustion of butane at 1 bar and 298 K C_4H_(10(g)) + 6.5O_(2(g)) to 4CO_(2(g)) + 5H_2O_((l)) , DeltaG^(0) = -2746 kUJ// mol

A fuel cell involves combustion of butane at 1 atm and 298 K C_(4)H_(10 )(g)13/2 O_(2) (8)rarr 4CO_(2)(g)+5H_(2)0 (l), triangle G^(@) = -2746 kJ/mol. What is E^(@) of a cell?

A fuel cell involves combustion of the butane at 1 atm and 298 K C_(4)H_(10)(g)+(13)/(2)O_(2)(g)rarr 4CO_(2)(g)+5H_(2)O(l) DeltaG^(@)=-"2744 kJ/mole" The value of E_("cell")^(@) Report your answer by rounding it upto nearest whole number.

A fuel cell involves combustion of butane at at 1 atm and 298 K underset((g))(C_4H_(10))+underset((g))(13/2O_2)rarrunderset((g))(4CO_2)+underset((l))(5H_2O) DeltaG^@=-2746"kJ//mol" The value of E_("cell")^@ is nearly ?

A fuel cell involves combustion of methane at 1atm and 298 K CH_(4(g))+2O_(2)toCO_(2(g))+2H_(2)O_((l)),DeltaH^(@)=-890kJ .Calculate the efficiency (E_("cel")^(@)=1.09V)

What amount of energy (kJ) is released in the combustion of 5.8 of C_(4)H_(10) (g)? 2C_(4)H_(10)(g)+13O_(2)(g)to8CO_(2)(g)+10H_(2)O(1), DeltaH^(@)=-5756kJ