Exponential Growth/Decay Models (Summary)

A quick summary (more details here):

The equation that describes exponential growth is:
Exponential Growth: $N = N_0 e^{rt}$

where:

N = number of cells (or concentration of biomass);
N₀ = the starting number of cells;
r = the rate constant, which determines how fast growth occurs; and
t = time.

You can set the r value, but that’s a bit abstract so often these models will use the doubling time – the time it takes for the population (the number of cells, or whatever, to double). The doubling time (t_d) can be calculated from the equation above by:

$t_d = \frac{\ln 2}{r}$

or if you know the doubling time you can find r using:

$r = \frac{\ln 2}{t_d}$

Finally, note that the only difference between a growth model and a decay model is the sign on the exponent:

Exponential Decay: $N = N_0 e^{-rt}$

Decay models have a half-life — the time it takes for half the population to die or change into something else.

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