g = _____________

Carbon, silicon and germanium have four valence electrons each. These are characterised by valence and conduction bands separated by energy band gap respectively equal to ( E _(g))_(c ) , ( E_(g))_(Si ) and ( E_(g ))_(G e ) .Which of the following statements is true ? (a) (E_(g))_(Si) lt ( E_(g))_(Ge ) lt ( E_(g))_(C ) (b) ( E_(g))_(C ) lt ( E_(g))_(Ge ) gt (E_(g))_(Si) (c ) (E_(g))_(C ) gt ( E_(g))_(SI) gt ( E_(g))_(Ge ) (d) ( E_(g))_(C ) = ( E_(g))_(Si) = ( E_(g))_(Ge )

The reaction obey 1 order with respect to H_(2) and Icl both H_(2(g))+2ICl_((g)) to 2HCl_((g))+I_(2(g)) Which of the following mechanism is consistent with the given fact ? Mechanism A : H_(2(g))+2ICl to 2HCl_((g))+I_(2(g)) Mechanism B : (i) H_(2(g))+ICl_((g)) overset ("slow") underset (HCl_((g))+HI_((g)))( to ) (ii) HI_((g))+ICl_((g)) to HCl_((g))+I_(2)

For the following three reactions a, b and c equilibrium constant are given a) CO_((g))+H_2O_((g)) harr CO_(2(g))+H_(2(g)) , K_1 b) CH_(4(g))+H_2O_((g)) harr CO_((g))+3H_(2(g)) , K_2 c) CH_(4(g))+2H_2O_((g)) harr CO_(2(g))+4H_(2(g)) , K_3 Which of the following relations is correct?

From the following data at 25^(@)C {:("Reaction ",Delta_(r) H^(@) kJ//mol),((1)/(2)H_(2)(g) + (1)/(2)O_(2)(g) rarr OH (g),42),(H_(2)(g) + (1)/(2)O_(2)(g) rarr H_(2)O_(g),-242),(H_(2)(g) rarr 2H(g),436),(O_(2)(g) rarr 2O(g),495):} Which of the following statement(s) is/are correct: Statement (a): Delta_(r)H^(@) for the reaction H_(2)O(g) rarr 2H(g) + O(g) Statement (b): Delta_(r)H^(@) for the reaction OH(g) rarr H(g) + O(g) is Statement (c) : Enthalpy of formation of H(g) is -218 kJ/mol Statement (d): Enthalpy of formation of OH(g) is 42 kJ/mol

{:("Column-I (F.R.Favourable)","COlumn-II"),((A) H_(2(g)) + I_(2(g)) hArr 2HI_((g)) + Q,(P)"High temperature"),((B) 2SO_(2(g)) + O_(2(g)) hArr 2SO_(3(g)) + Q,(Q)"Low temperature "),((C) 2NH_(3(g)) hArr N_(2(g)) + 3H_(2(g)) - Q,(R)"High pressure"),((D) PCl_(5(g)) hArr PCl_(3(g)) + Cl_(2(g)) - Q,(S)"Low pressure"):}

If f(g(x)) = x and g(f(x)) = x then g(x) is the inverse of f(x) . (g'(x))f'(x) = 1 implies g'(f(x))=1/(f'(x)) Let us consider a real value bijective function g(x) sun that g'(x) = sin^2 (x+pi/4) +2 cos (x -pi/4) and g(pi/4) =3 then value of (g^(-1))(3) is

Two systems, PCI_(5(g)) harr PCI_(3(g)) + Cl_(2(g)) and COCl_(2(g)) harr CO_((g)) + Cl_(2(g)) are simultaneously in equilibrium in a vessel at constant volume. If some CO is introduced into the vessel, then at the new equilibrium, the concentration of:

In which of the following reactions, the formation of product is favoured by decrease in temperature ? (1) N_(2)(g)+O_(2)(g)hArr2NO(g), DeltaH^(@)=181 (2) 2CO_(2)(g)hArr2CO(g)+O_(2)(g), DeltaH^(@)=566 (3) H_(2)(g)+I_(2)hArr2HI(g), DeltaH^(@)=-9.4 (4) H_(2)(g)+F_(2)(g)hArr2HF(g),DeltaH^(@)=-541

Following two eqilibrium is simultaneously establised in a container PCl_(s(g)) hArr PCl_((3)(g)) + Cl_((2)(g)), CO_((g)) + Cl_(2(g)) hArr COCl_((2)(g)) . If some Ni_((g)) is introduced in the container forming Ni(CO)_(4) then at new equilibrium