`ArarrB, DeltaH= -10 KJ mol^(-1), E_(a(f))=50 KJ mol^(-1)`, then `E_(a)` of `BrarrA` will be

For the reaction at 298 K 2A+B rarr C DeltaH=400 kJ mol^(-1) and DeltaS=0.2 kJ K^(-1) mol^(-1) At what temperature will the reaction becomes spontaneous considering DeltaH and DeltaS to be contant over the temperature range.

Following are the values of E_(a) and DeltaH for three reactions carried out at the same temperature : I :E_(a)=20kJ mol^(-1),DeltaH=-60kJmol^(-1) II :E_(a)=10kJ mol^(-1),DeltaH=-20kJ mol^(-1) III : E_(a)=40 kJ mol^(-1),DeltaH=+15kJ mol^(-1) If all the three reaction have same frequency factor then fastest and slowest reaction are :

If DeltaH_(f(C_(2)H_(6)))^(0)(g) = -85 KJH mol^(-1) , DeltaH_(f(C_(3)H_(8)))^(0) (g) = -104 KJ mol^(-1), DeltaH^(0) for C (s) rarr C(g) is 718 KJ mol^(-1) and heat of formation of H-atom is 218 KJmol^(-1) then :

DeltaH in terms of 'x' xx 10^(3) KJ is if M_((g)) + 2X_((g)) rarr M_((g))^(2+) + 2X_((g))^(-) Given : (I.E)_(1) of M (g) = 705.7 kJ mol^(-1), (I.E)_(2) " of" M(g) = 951 kJ mol^(-1) and (E.A)_(1) of X(g) = -328 kJ mol^(-1) 'x' is

Given C_(2)H_(2)(g)+H_(2)(g)rarrC_(2)H_(4)(g): DeltaH^(@)=-175 " kJ mol"^(-1) DeltaH_(f(C_(2)H_(4),g))^(@)=50 " kJ mol"^(-1), DeltaH_(f(H_(2)O,l))^(@)=-280 " kJ mol"^(-1), DeltaH_(f(CO_(2)g))^(@)=-390 " kJ mol"^(-1) If DeltaH^(@) is enthalpy of combustion (in kJ "mol"^(-1) ) of C_(2)H_(2) (g), then calculate the value of |(DeltaH^(@))/(257)|

A catalyst decreases E_(a) form 100 KJ mol^(-1) to 80 KJ mol^(-1) At what temperature the rate of reaction in the absence of catalyst at 500 K will be equal to rate reaction in the presence of catalyst?

For the reaction at 300 K , A(g) rarr B(g) + E(g), DeltaH^(@) = -30 KJ mol^(-1) , the decrease in standard entropy is 0.1 KJK^(-1)mol^(-1) .The equilibrium constant K for the reaction is ________.

Using the data provided, calculate the multiple bond energy (kJ mol^(-1)) of a C-=C bond in C_(2)H_(2) . That energy is ( take the bond energy of a C-H bond as 350kJ mol^(-1)) . 2C_((s))+H_(2(g))rarr C_(2)H_(2(g)), Delta=225kJ mol^(-1) 2C_((s))rarr 2C_(g)), DeltaH=1410kJ mol^(-1) H_(2(g)) rarr 2H_((g)),DeltaH=330kJ mol^(-1)

Rate constant k = 1.2 xx 10^(3) mol^(-1) L s^(-1) and E_(a) = 2.0 xx 10^(2) kJ mol^(-1) . When T rarr oo :

A+B rarr C, DeltaH = +60 kJ/mol E_(a_f) is 150 kJ. What is the activation energy for the backward reaction ?