Given that `C+O_(2)rarrCO_(2),DeltaH^(@)=-xKJ` and `2CO+O_(2)rarr2CO_(2),DeltaH^(@)=-yKJ` The enthalpy of formation of carbon monoxide will be

From the thermochemical reactions, C(grap hite)+1//2O_(2)rarr CO , Delta H =-110.5 KJ CO+1//2O_(2)rarr CO_(2),Delta H=-283.2 KJ The heat of reaction of C(graph ite) +O_(2)rarr CO_(2) is :

The heat of formations of CO_((g)) and CO_(2(g)) are -26.4 kcal and -94.0 kcal respectively. The heat of combustion of carbon monoxide will be _________ .

DeltaH for the reaction 2H_(g) rarr H_2(g) will be

Given the reaction, CH_2O_((g))+ O_(2(g)) rarr CO_(2(g))+H_2O_((g)) DeltaH=- 527 kJ How much heat will be evolved in the formation of 30 g of CO_2 ?

You are given the following two reactions : CH_(4(g))+2O_(2(g))rarrCO_(2(g))+2H_2O_((g)) DeltaH=-890.4kJ , 2HgO_((s)) rarr2Hg_((l)) +O_(2(g)) DeltaH=+181.6kJ Which one of the following statements is correct?

Given the thermochemical equation, C_2H_2(g)+ 5//2O_2(g)rarr2CO_2(g)+H_2O_(l),Delta_rH^0=-1300 KJ Write thermochemical equation when Coefficients-of substances are multiplied by 2.

Given the thermochemical equation, C_2H_2(g)+ 5//2O_2(g)rarr2CO_2(g)+H_2O_(l),Delta_rH^0=-1300 KJ Write thermochemical equation when equation is reversed.

The heat evolved in combustion of benzene is given by the following equation C_(6)H_(6)+15//2O_(2)to3H_(2)O+6CO_(2) : DeltaH=-3264.6 kJ Which of the following quantities of heat will be evolved when 39g of benzene are burnt in an open container ?

Calculate DeltaH^@ for the reaction between ethene and water to form ethyl alcohol from the following data DeltaH^@C_2H_2OH_((g))-1368kJ : Delta_cH^@C_2H_2OH4((g))-1410kJ Does the calculated DeltaH^@ represent the enthalpy of formation of liquid ethanol.

The heat evolved in the combustion of glucose (C_6H_(12)O_6) is given by the equation C_6H_(12)O_(6(s)) rarr 6CO_(2(g))+6H_2O_((i)) , DeltaH=-680 kcal The weight of CO_(2(g)) produced when 170 kcal of heat is evolved in the combustion of glucose is.