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Concentrations
  Simulates individual and global concentrations.
2024.Jul.03 12:33:23
Mass μ =   σ = Mass (kg). •
Volume μ =   σ = Volume (L). •
N, repeat.  10^  No. of vessels simulated, repeatability.
Classes No. of classes in histogram. •
Show values Shows the graph coordinates.
  Simulates, for i = 1..N, the concentration, ci = mivi, calculated from simulated mass, mi, and volume, vi, of individual vessels (flasks, containers). Simulates the concentrations (mass ⁄ volume) of individual vessels (flasks, containers) and calculates the global concentration (total mass ⁄ total volume). Thus:
 a) Merging all: c = (Σmi) ⁄ (Σvi). Expectedly, c = (N μC) ⁄ (N μV) = μCμV.
 b) Keeping individuals separate: μC = (1⁄N) Σ(mivi). Possibly, different from above.
 Draws a graph (histogram) of the individual concentrations. (concentrations.xlsx)
 (lg 2 = 0.30103, hence the base value.) Other suggested data: μM = 1. .
References: Plate: Concentr

• Search "Monte Carlo" simulation (site:.edu).

• 1842-11-12: Strutt, John William (Lord Rayleigh) (1919-06-30).

 
 
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Created: 2009-11-12 — Last modified: 2017-04-22