World Population
Growth
Part 4: When is Doomsday?
The parameter T in the model
function
P = 1/[r k (T
- t)]1/r
is obviously important.
It is just as obviously not directly observable from measurements or estimates
of population. However, we can take logs of both sides of this equation
to find the equivalent form
log P = (-1/r)
[log (rk) + log (T - t)]
If this model fits the data
(and we have seen some evidence that it does), then we should find that
log P is a linear function of log (T - t).
- Commands are provided in
your worksheet to construct a log-log plot of P versus T - t
for your choice of T. Experiment with T until you can
make this plot as straight as possible. Is your best estimate of T in
the near future or the distant future relative, say, to your
lifetime?
- You now have values for
all the parameters -- k, r, T -- in your model function. Plot the model
function, and superimpose your plot of the historical data. Does this model
describe the data adequately?
- Recall that we computed
k and r from crude approximations to dP/dt, so these
may not be the best values for fitting a model to the data. Experiment
with small changes in k and/or r to see if you can
get a better fit with your model function. (These adjustments will not
affect T because the procedure for finding T did not involve
k or r.)
- The last date represented
in our historical data was 1985. With your best estimates of the parameters
k, r, and T, what does your model function "predict" for populations
that have already occurred in 1990 and 1995?
- What does your model function
predict for world population in 2000, 2010, 2020?
- For the five dates in the
two preceding steps, compare the estimates and projections at the U.
S. Census Bureau. What do you conclude about the recent trend in population
growth and projections for the near-term future? What does the Census Bureau
predict for the longer term?
Send comments to the
authors <modules at math.duke.edu>
Last modified: December
2, 1997
