Calculate the enthalpies change for the reaction,
`H_(2)(g)+Cl_(2)(g)to2HCl(g)`
Given that, bond energies of H-H,Cl-Cl and H-Cl are 436, 243 and 432 kJ `mol^(-1)`

Enthalpy change for reaction 1//2H_(2)(g)+1//2Cl_(2)(g)toHCl(g) is called :-

Calculate the enthalpy change for the reaction H_2(g) + 1/2 O_2(g) to H_2O (g) if the bond energies of H - H,O = O and O - H bonds are 104, 118 and 11 kcal mol^(-1) respectivley.

In the reactions H_2(g) +Cl_2 ( g) hArr 2HCl (g) .

The net enthalpy change of a reaction is the amount of energy required to break all the bonds in reactant molecules minus amount of energy required to form all the bonds in the product molecules. What will be the enthalpy change for the following reaction ? H_(2) (g) + Br_(2) (g) rarr 2HBr (g) . Given that, bond energy of H_(2), Br_(2) and HBr is 435 kJ mol^(-1), 192 kJ mol^(-1) and 368 kJ mol^(-1) respectively

The enthalpy change for the reaction, C_(2)H_(6)(g)rarr2C(g)+6H(g) is X kJ. The bond energy of C-H bond is :

Determine enthalpy change for the reaction, CH_(4(g))+Cl_(2(g))rarr CH_(3)Cl_((g))+HCl_((g)) Bond energies for C-H,C-Cl,Cl-Cl,H-Cl are 412,338,242,431k J mol^(-1) respectively.

Calculate change in enthalpy for the reaction at 27^(@)C H_(2)(g)+Cl_(2)(g)rarr2H-Cl(g) by using the bond energy and energy data Bond energies of H-H,Cl-Cl and H-Cl bonds are 435 kJ mol^(_1), 240 kJ mol^(-1) and 430 kJmol^(-1) respectively.

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.

Calculate the enthalpy of the following reaction : CH_2= CH_2 (g) + H_2(g) to CH_3 - CH_3(g) The bond energies of C-H, C-C, C=C and H-H bonds are 414, 347, 615 and 435 kJ mol^(-1) respectively.

Calculate DeltaH^(@) ("in" kJmol^(-1)) for the reaction CH_(2)Cl_(2)(g)rarrC(g)+2H(g)+2Cl(g). The average bond enthalpie of C-H and C-C1 bonds are 414 kJ mol^(-1) .