Calculate P-Cl bond enthalpy Given : Delta_(r)H(PCl_(3),g)=306kJ //mol DeltaH_("at omization")(P,s)=314kJ//mol , Delta_(r)H(Cl,g)=121kJ//mol
Determine C-C and C-H bond enthalpy (in kJ//mol ) Given : Delta_(f)H^(@)(C_(2)H_(6),g)=-85kJ//mol," "Delta_(f)H^(@)(C_(3)H_(8),g)=-104kJ//mol Delta_("sub")H^(@)(C,s)=718kJ//mol," "B.E.(H-H)=436kJ//mol
Determine the enthalpy of formation of B_(2)H_(6) (g) in kJ/mol of the following reaction : B_(2)H_(6)(g)+3O_(2)(g)rarrB_(2)O_(3)(s)+3H_(2)O(g) , Given : Delta_(r )H^(@)=-1941 " kJ"//"mol", " "DeltaH_(f)^(@)(B_(2)O_(3),s)=-1273" kJ"//"mol," DeltaH_(f)^(@)(H_(2)O,g)=-241.8 " kJ"//"mol"
Calculate the enthalpy change for the process C Cl_(4)(g) rarr C(g)+4Cl(g) and calculate bond enthalpy of C-Cl in C Cl_(4)(g) . Delta_(vap)H^(Θ)(C Cl_(4))=30.5 kJ mol^(-1) Delta_(f)H^(Θ)(C Cl_(4))=-135.5 kJ mol^(-1) Delta_(a)H^(Θ)(C )=715.0 kJ mol^(-1) , where Delta_(a)H^(Θ) is enthalpy of atomisation Delta_(a)H^(Θ)(Cl_(2))=242 kJ mol^(-1)
Calculate Delta_(r) H^(@) for Fe_(2) O_(3) (s) + 3 CO(g) to 2 Fe (s) + 3 CO_(2) (g) Given : Delta_(f) H^(@) (Fe_(2) O_(3) , s) = -822.2 kJ/mol Delta_(f) H^(@) (CO , g) = -110.5 kJ//mol , Delta_(f) H^(@) (CO_(2) , g) = -393.5 kJ/mol
Calculate lattice energy for the change, Li^(+)(g)+Cl^(-) (g) rarr LiCl(g) Given that {:(DeltaH_("sublimation")" of "Li=160.67 kJ mol^(-1)",",,DeltaH_("Dissociation")" of "Cl_(2) =244.34 kJ mol^(-1)","),(DeltaH_("ionisation")" of "Li(g)=520.07 kJ mol^(-1)",",,DeltaH_(E.A)" of "Cl(g)= -365.26 kJ mol^(-1)","),(DeltaH_(f)" of "LiCl(s)= -401.66 kJ mol^(-1)",",,):}
NARENDRA AWASTHI-THERMODYNAMICS-Level 3 - Match The Column
