The gas-phase association reaction between F2 and IF5 is first-order in each of the reactants. The...

Constants | Periodic Table The gas-phase reaction of NO with F2 to form NOF and F...

Constants | Periodic Table The gas-phase reaction of NO with F2 to form NOF and F has an activation energy of Ea = 6.30 kJ/mol and a frequency factor of A = 6.00×108 M−1⋅s−1 . The reaction is believed to be bimolecular: NO(g)+F2(g)→NOF(g)+F(g) What is the rate constant at 537 ∘C ? Express your answer to three significant digits with the appropriate units. For compound units, place a multiplication dot between units (e.g. J⋅mol−1⋅K−1).

The gas-phase reaction of NO with F2 to form NOF and F has an activation energy...

The gas-phase reaction of NO with F2 to form NOF and F has an activation energy of Ea = 6.30 kJ/mol and a frequency factor of A = 6.00×108M−1⋅s−1 . The reaction is believed to be bimolecular: NO(g)+F2(g)→NOF(g)+F(g) What is the rate constant at 695 ∘C ? Express your answer to three significant digits with the appropriate units. For compound units, place a multiplication dot between units (e.g. J⋅mol−1⋅K−1). (I got 2.74*10^8 M-1s-1 but it is wrong. I got a...

The gas phase reaction 2N2O5(g)->4NO2(g)+O2(g) has an activation energy of 103 kJ/mole, and the first order...

The gas phase reaction 2N2O5(g)->4NO2(g)+O2(g) has an activation energy of 103 kJ/mole, and the first order rate constant is 1.16x10^-8 min^-1 at 231 K. what is the rate constant at 211K?

The ratio of an enzyme catalyzed reaction rate to the uncatalyzed rate (i.e. kcat / kuncat)...

The ratio of an enzyme catalyzed reaction rate to the uncatalyzed rate (i.e. kcat / kuncat) is equal to 10,000. Compute the amount, in kj/mol, by which the activation energy for the reaction is lowered by the enzyme. Assume the free energy of the reactants is the same in both cases. The temperature is 300 K and the gas constant R is 8.314 J / (mol K).

For chemical reactions where all reactants and products are in the gas phase the amount of...

For chemical reactions where all reactants and products are in the gas phase the amount of each gas in the vessel can be expressed either as partial pressures or as concentrations. As such the equilibrium constant for a gas phase reaction can also be expressed in terms of concentrations or pressures. For the general reaction, aA(g)+bB(g)⇌cC(g)+dD(g) Kp=(PC)c(PD)d(PA)a(PB)b and Kc=[C]c[D]d[A]a[B]b. It is possible to interconvert between Kp and Kcusing Kp=Kc(RT)Δn where R=0.08314 L bar mol−1 K−1 and Δn is the difference...

Diatomic and atomic fluorine gas exists in equilibrium according to the following reaction F2(g) -><- 2F(g)...

Diatomic and atomic fluorine gas exists in equilibrium according to the following reaction F2(g) -><- 2F(g) (a) The standard molar Gibbs free energy of reaction, ∆rG at 298 K is 5.25 kJ mol−1 at 298 K. Use this information to calculate the equilibrium constant for the reaction. (b) Calculate the extent of reaction, ξ, for this reaction if 1.0 mole of F2 and 0.0 moles of F are present initially. The equilibrium pressure is 1.3 bar.

ARRHENIUS EQUATION CALCULATIONS The activation energy for the gas phase decomposition of dinitrogen pentoxide is 103...

ARRHENIUS EQUATION CALCULATIONS The activation energy for the gas phase decomposition of dinitrogen pentoxide is 103 kJ. N2O52 NO2 + 1/2 O2 The rate constant at 319 K is 5.59×10-4 /s. The rate constant will be 6.37×10-3 /s at ______ K. PART 2 The activation energy for the gas phase isomerization of isopropenyl allyl ether is 123 kJ. CH2=C(CH3)-O-CH2CH=CH2CH3COCH2CH2CH=CH2 The rate constant at 432 K is 2.68×10-4 /s. The rate constant will be______ /s at 474 K.

There are several factors that affect the rate of a reaction. These factors include temperature, activation...

There are several factors that affect the rate of a reaction. These factors include temperature, activation energy, steric factors (orientation), and also collision frequency, which changes with concentration and phase. All the factors that affect reaction rate can be summarized in an equation called the Arrhenius equation: k=Ae−Ea/RT where k is the rate constant, A is the frequency factor, Ea is the activation energy, R=8.314 J/(mol⋅K) is the universal gas constant, and T is the absolute temperature. __________________________________________________ A certain...

The first order rate constant for a reaction at 790 oC is 4.05e-03 s-1. If the...

The first order rate constant for a reaction at 790 oC is 4.05e-03 s-1. If the activation energy for the reaction is 255 kJ/mol, what is the rate constant at 890 oC? k =  s-1

The standard free energy of activation of a reaction A is 88.2 kJ mol–1 (21.1 kcal...

The standard free energy of activation of a reaction A is 88.2 kJ mol–1 (21.1 kcal mol–1) at 298 K. Reaction B is ten million times faster than reaction A at the same temperature. The products of each reaction are 10.0 kJ mol–1 (2.39 kcal mol–1) more stable than the reactants. (a) What is the standard free energy of activation of reaction B? (b) What is the standard free energy of activation of the reverse of reaction A? (c) What...