For the reaction ,`CH_(4)+Cl_(2)toCH_(3)Cl+HCl` which expression given `DeltaH`?
`{:("Bond dissociation",Kj.mol^(-1)),(C-H,413),(C-Cl,328),(Cl-Cl,242),(H-Cl,431):}`

The reaction CH_(4)(g)+Cl_(2)(g)to CH_(3)Cl(g)+HCl(g) has DeltaH=-25kcal {:(Bond,"Bond Energy ,kcal"),(epsi_(C)-Cl,84),(epsi_(H-Cl),103),(epsi_(C-H),x),(epsi_(Cl-Cl),y):} x:y=9.5 From the given data , what is the bond energy of Cl-Cl bond?

In the reaction, Cl_(2)+CH_(4)overset(hv)toCH_(3)Cl+HCl presence of a small amount of oxygen

The reaction CH_(4) (g) + Cl_(2) (g) rarr CH_(3)Cl (g) + HCl (g) has Delta H = -25 kCal. {:("Bond","Bond Energy k Cal"),(epsi_(C - Cl),84),(epsi_(H - Cl),103),(epsi_(C - H),x),(epsi_(Cl - Cl),y),(" "x : y = 9 : 5,):} From the given data, what is the bond energy of Cl- Cl bond (in k.cal)

Determine the enthalpy change for the given reaction. CH_(4) (g) + Cl_(2) (g) rightarrow CH_(3) Cl(g) + HCI (g) Bond energies are given as follows: C-H = 412 kJ mol^(-1) C-CI = 338 kJ mol^(-1) CI-CI = 242 kJ mol^(-1) H-CI = 431 kJ mol^(-1) .

Determine the enthalpy change for the given reaction. CH_(4) (g) + Cl_(2) (g) rightarrow CH_(3) Cl(g) + HCI (g) Bond energies are given as follows: C-H = 412 kJ mol^(-1) C-CI = 338 kJ mol^(-1) CI-CI = 242 kJ mol^(-1) H-CI = 431 kJ mol^(-1) .

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.

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.