Forward and reverse rate constant for the reaction
`CO_(2)(g) + N_(2)(g) CO(g) + N_(2)O` exhibit the following temperature dependence.
`{:("Temperature (K)",k_(f)(M^(-1)S^(-1)),k_(r)(M^(-1)s^(-1))),(1200,9.1xx10^(-11),1.5xx10^(5)),(1500,2.7xx10^(-9),2.6xx10^(5)):}`
Is the reaction endothermic or exothermic? Explain in terms of kinetics.

Listed in the table are forward and reverse rate constants for the reaction 2NO(g)hArrN_(2)(g)+O_(2)(g) {:(,Temperature(K),k_(f)(M^(-1)s^(-1)),k_(b)(M^(-1)s^(-1))),(,1400,0.29,1.1xx10^(-6)),(,1500,1.3,1.4xx10^(-5)):} Select the correct statement

Listed in the table are forward and reverse rate constant for the reaction: 2NO(g)hArrN_(2)(g)-O_(2)(g) {:("Temperature "(K),K_(f)[M^(-1)s^(-1)],K_(b)[M^(-1)s^(-1)]),(1400,0.29,1.1xx10^(-6)),(1500,1.3,1.4xx10^(-5)):} Select the correct statement

The rate constant of a reaction is 1.2xx10^(-5)mol ^(-2)"litre"^(2) S^(-1) the order of the reaction is

For a reaction 2NO(g) + 2H_(2)(g) rarr N_(2)(g)+2H_(2)O(g) the following data were obtained: |{:(,[NO] (mol L^(-1)),[H_(2)] (mol L^(-1)),"Rate" (mol L^(-1) s^(-1))),(1.,5 xx 10^(-3),2.5 xx 10^(-3),3 xx 10^(-5)),(2.,15 xx 10^(-3),2.5 xx 10^(-3),9xx10^(-5)),(3.,15 xx 10^(-3),10 xx 10^(-3),3.6 xx 10^(-4)):}| (a) Calculating the order of reactions. (b) Find the rate constant. (c ) Find the initial rate if [NO] = [H_(2)] = 8.0 xx 10^(-3) M

Calculate DeltaG^(@) for the reaction NO(g) iff 1/2 N_(2)(g) + 1/2 O_(2)(g) if K = 1.55 xx 10^(15) at 298 K.

Calculate DeltaG^@ for the reaction NO hArr 1/2N_2(g) +1/2O_2(g) If K=1.55xx10^15 at 298 K

The rate constant for a reaction is 2xx10^(-2) s^(-1) at 300 K and 8xx10^(-2) s ^(-1) at 340 K The energy of activation of the reaction is

The rate constant for the reaction: 2N_(2)O_(5) rarr 4NO_(2)+O_(2) is 3.0xx10^(-5) sec^(-1) . If the rate is 2.40xx10^(-5) M sec^(-1) , then the concentration of N_(2)O_(5) (in M) is: