. A model differential equation for chemical reaction dynamics is given as kC x C D x C u t C − = + 2 2 where u is the velocity, D is the diffusion coefficient, k is a reaction rate, and C is the (dimensionless) concentration of a given chemical species.
(a) Determine the appropriate dimensions of D and k.
(b) Using a characteristic length scale L and average velocity V as parameters, rewrite this equation in dimensionless form and comment on any non-dimensional group appearing.
Answers: 3
Chemistry, 22.06.2019 11:00
What is the temperature of 0.750 mol of a gas stored in a 6,850 ml cylinder at 2.21 atm? . 2.95 k 5.24 k 138 k 246 k
Answers: 3
Chemistry, 23.06.2019 02:00
Calculate the molarity of each aqueous solution: a. 78.0 ml of 0.240 m naoh diluted to 0.250 l with water b. 38.5 ml of 1.2 m hno3 diluted to 0.130 l with water
Answers: 1
Chemistry, 23.06.2019 03:30
If 2 molecules of one reactant combine with 3 molecules of another to produce 5 molecules of a product, then what is the representation of the reaction?
Answers: 1
. A model differential equation for chemical reaction dynamics is given as kC x C D x C u t C − ...
Mathematics, 14.01.2022 23:30
History, 14.01.2022 23:30
SAT, 14.01.2022 23:30
Mathematics, 14.01.2022 23:30
Advanced Placement (AP), 14.01.2022 23:40
Social Studies, 14.01.2022 23:40