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http://www.bassbasement.org/F/N/FMB/Pubs/Bass%201969%20New%20Prod%20Growth%20Model.pdf About the bass diffusion model, you can refer to the link given above. It's used to predict the adoption of new products.

Using the method below and the condition that F(0)=0, I want to get F(t), and F'(t)

  DSolve[{F′(t)=p+(q−p)∗F(t)−q∗(F[t])^2 }, F,t]

Any suggestions? Please post your answer here.

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up vote 3 down vote accepted
k = DSolve[{f'[t] == p + (q - p) f[t] - q f[t]^2,  f[0] == 0}, f, t]

Please ... try to read the manuals!


Perhaps Plotting it requires some expertise:

g[x_?NumericQ] := (f /. k[[1]] /. {p -> 1/3, q -> 2/3})[x]
Plot[{g[t], g'[t]}, {t, 0, 8}, PlotRange -> Full]

enter image description here

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I had ran this code too. however, MM issues an warning: Solve::ifun: Inverse functions are being used by Solve, so some solutions may not be found; use Reduce for complete solution information. >> –  Frank WANG Apr 26 '12 at 13:12
@FrankWANG That is because there are also trivial solutions try Reduce[f'[t] == p + (q - p) f[t] - q (f[t])^2] –  belisarius Apr 26 '12 at 13:18
Thank you for your answer. –  Frank WANG Apr 26 '12 at 13:27
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