The reaction between fluorine and chlorine dioxide, F2(g) + ClO2(g) → 2FClO2(g) Proceeds according to the following rate Law: r=k⋅PF2⋅PClO2 where k= 0.0489 bar-1 s-1. In an isolation experiment, the initial partial pressures are: PF2(t=0) = 0.04687 bar and PClO2(t=0) = 3.606 bar. Note: Ukeff means units of keff . You need to use a string with no spaces. For example enter gm3 as g*m^{-3} or g/m^3 . (a) Calculate the effective rate constant keff= Ukeff= (b) Compute the pressure of fluorine in bar after 55.8 s. PF2(t=55.8s)= bar (c) How long will it take for the pressure of fluorine to drop to 0.01318 bar? t = s
The reaction between fluorine and chlorine dioxide, F2(g) + ClO2(g) → 2FClO2(g) Proceeds according to the following rate Law: r=k⋅PF2⋅PClO2 where k= 0.0489 bar-1 s-1. In an isolation experiment, the initial partial pressures are: PF2(t=0) = 0.04687 bar and PClO2(t=0) = 3.606 bar. Note: Ukeff means units of keff . You need to use a string with no spaces. For example enter gm3 as g*m^{-3} or g/m^3 . (a) Calculate the effective rate constant keff= Ukeff= (b) Compute the pressure of fluorine in bar after 55.8 s. PF2(t=55.8s)= bar (c) How long will it take for the pressure of fluorine to drop to 0.01318 bar? t = s
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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The reaction between fluorine and chlorine dioxide,
F2(g) + ClO2(g) → 2FClO2(g)
Proceeds according to the following rate Law: r=k⋅PF2⋅PClO2
where k= 0.0489 bar-1 s-1. In an isolation experiment, the initial partial pressures are:
PF2(t=0) = 0.04687 bar and PClO2(t=0) = 3.606 bar. Note: Ukeff means units of keff . You need to use a string with no spaces. For example enter gm3 as g*m^{-3} or g/m^3 .
(a) Calculate the effective rate constant keff= Ukeff=
(b) Compute the pressure of fluorine in bar after 55.8 s. PF2(t=55.8s)= bar
(c) How long will it take for the pressure of fluorine to drop to 0.01318 bar? t = s
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