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A reviewer of a paper I submitted to a scientific journal insists that my function

f1[b_, c_, t_] := 1 - E^((c - t)/b)/2

is "mathematically equivalent" to the function

f2[b0_, b1_, t_] := 1 - b0 E^(-b1 t)  

He insists

While the models might appear(superficially) to be different, the f1 model is merely a re-parameterisation of the f2 model, and this can be seen easily using highschool mathematics.

I survived High School, but I don't see the equivalence, and FullSimplify does not yield the same results. Perhaps I am misunderstanding FullSimplify. Is there a way to authoritatively refute or confirm the assertion of the reviewer?

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closed as off topic by icepack, sampson-chen, kennytm, woodchips, phant0m Nov 28 '12 at 20:02

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Consider math.stackexchange.com for math related questions as this. –  user17753 Nov 28 '12 at 20:49

1 Answer 1

If c and b are constant, you can factor them out relatively easily given the property of the power operator:

e^(A + B) = e^A x e^B...


e^((c - t)/b) = e^(c/b - t/b) = e^(c/b) x  e^(-t/b) = b0 x e^(-t/b)

The latter expression is commonly used to simplify linear differential equation.

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