How Did We Get so Many People
in Such a Short Time?
by Jonathan Sarfati
To
work out how quickly a population can grow, it's very important to
understand exponential growth. Starting from eight people after the
Flood, the population would have to double only 30 times to reach 8.6
billion. Now there is a well-known ‘Rule of 72’, which says divide 72 by
the percentage growth rate to get the time required for doubling.*
E.g. if inflation is 8% p.a., then in 72/8 = 9 years,
the cost of living will have doubled.
So
what is a realistic growth rate? The Encyclopædia Britannica claims
that by the time of Christ, the world’s population was about 300 million.
It apparently didn't increase much up to AD 1000.
It was up and down in the Middle Ages because of plagues etc. But may have
reached 800 million by the beginning of the Industrial Revolution in 1750 —
an average growth rate of 0.13% in the 750 years from 1000–1750. By 1800,
it was one billion while the second billion was reached by 1930 — an
average growth rate of 0.53% p.a. This period of population growth cannot
be due to improved medicine, because antibiotics and vaccination campaigns
did not impact till after WWII. From 1930 to 1960, when the population
reached three billion, the growth rate was 1.36 % p.a. By 1974, the fourth
billion was reached, so the average growth rate was 2.1% from 1960 to 1974.
From 1974 to 1990, when the mark hit five billion, the growth rate had
slowed to 1.4%. The increase in population growth since WWII is due to
fewer deaths in infancy and through disease.
If
the average growth rate were a mere 0.4 %, then the doubling time would be
180 years. Then after only 30 doublings or 5400 years, the population could
have reached over eight billion.
If
you want something more rigorous, there are standard mathematical formulæ
that can be used to calculate population growth. They must include birth
and death rates as well as generation time. The simplest formula involves
just a constant growth rate:
N = N0 (1 + g/100)t
where N is the population, N0 is the initial population, g is
the percentage growth rate per year, and t is the time in years. Applying
this formula to the population of eight surviving the Flood, and assuming a
constant growth rate of 0.45% p.a. and 4500 years:
N = 8 (1.0045)4500 = 4.8 billion people.
Of
course, the population growth hasn’t been constant, and would have been
very fast just after the Flood. Thus this formula by itself cannot be used
to prove a young earth. Look up the website article
Young World Evidence — there is a section on
population — if the world’s population had been in the millions for 100,000
years, then where are all their bodies?
More
precisely, the formula is: doubling time = 100 ln2/g,
where ln2 is the natural logarithm of 2 (0.693) and g the percentage growth
rate. So it would be slightly more precise to use a ‘Rule of 69’, but 72 is
chosen because more numbers divide evenly into it, and it is good enough
for an approximate rule of thumb.
copyright held by: Bodie Hodge,
M.Sc.
Answers in Genesis Ministries
International
P.O. Box 6330
Florence, KY 41022
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