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densities of species A, B, C, D
rho = [1000 1500 2000 2500] kg m^-3

mass fractions in populations P1 and P2
w1 = [0.2 0.3 0.1 0.4]
w2 = [0.5 0.2 0.2 0.1]

diameters of particles in populations P1 and P2
D1 = 1e-07 m
D2 = 1e-06 m

number concentrations of populations P1 and P2
N1 = 1.000000e+13 m^-3
N2 = 1.000000e+10 m^-3

average densities in each population
rho1 = 1639.344262295082 kg m^-3
rho2 = 1293.1034482758619 kg m^-3

per-particle mass in each population
m1 = 8.583586485218013e-19 kg
m2 = 6.770673822391794e-16 kg

per-species masses in each population
mu1 = [1.71671730e-19 2.57507595e-19 8.58358649e-20 3.43343459e-19] kg
mu2 = [3.38533691e-16 1.35413476e-16 1.35413476e-16 6.77067382e-17] kg

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per-species masses in each population
mu1 = [1.71671730e-19 2.57507595e-19 8.58358649e-20 3.43343459e-19] kg
mu2 = [3.38533691e-16 1.35413476e-16 1.35413476e-16 6.77067382e-17] kg

total per-particle mass in each population
m1 = 8.583586485218013e-19
m2 = 6.770673822391794e-16

mass concentrations of each population
M1 = 8.583586485218013e-06 kg m^-3
M2 = 6.770673822391794e-06 kg m^-3

mass fractions in each population
p1 = [0.2 0.3 0.1 0.4]
p2 = [0.5 0.2 0.2 0.1]

entropy of particles in each population
Halpha1 = 1.2798542258336676
Halpha2 = 1.2206072645530175

diversity of particles in each population
Dalpha1 = 3.5961154666243225
Dalpha2 = 3.389245277339832

weighting = mass
pw1 = 8.583586485218013e-06
pw2 = 6.770673822391794e-06

average particle diversity over entire population
Dalpha = 3.5048931903856193

average particle mass fractions
p = [0.33228916 0.25590361 0.14409639 0.26771084]

entropy of average particle
Hgamma = 1.3468406197445824

diversity of average particle
Dgamma = 3.84525768818054

mixing state index
chi = 0.8803748078042893

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