I am taking a course in Cloud Physics, using the textbook, A Short Course in Cloud Physics, 3rd Edition, Rogers and M.K. Yau.
Please solve the following problem parts (1) and (2).
(1) Consider the Kohler equation that describes the equilibrium saturation ratio for a solution droplet of radius r. What is the saturation ratio S where the opposing effect of curvature and solution exactly balance. Show that the corresponding radius can be expressed as (b/a)1/2 .
(2) Using Kohler equation that describes the equilibrium saturation ratio for a solution, derive the peak saturation ratio (s*) which is the maximum value of the equilibrium saturation ratio, and its corespondent radius (r*).
I am taking a course in Cloud Physics, using the textbook, A Short Course in Cloud Physics, 3rd E...
Can you please post the solution to the problem below from the textbook A Short Course in Cloud Physics, 3rd Edition, Rogers and M.K. Yau. Problems 6.1. The following table, from Friedlander (1977, p. 9), gives the times required for the concentration of aerosol particles of 0.1 μm diameter to decrease by coagulation Listed are the times for the concentration, initially equal to No, to fall to one-tenth that value N0(cm-3) 108 107 106 105 t1/10 2min 20min 3.5h 35h...
Numerical Methods for Engineers and Scientists
3rd Edition – An Introduction with Applications Using
MATLAB - Gilat | Subramaniam Problem 3.29
A quarterback throws a pass to his wide receiver running a
route. The quarterback releases the ball at a height of hQ . The
wide receiver is supposed to catch theball straight down the field
60 ft away at a height of h R .
The equation that describes the motion of the football is the
familiar equation of...