For disease transmission it’s the average population density of the population not the country. Effectively the population density of each area * population in that area divided by total population.
So, assuming 3 areas 1,000 square miles with 2,000 people, 100 square miles with 4,000 people and 10 square miles with 8,000 people you do :
(2,000^2/1,000 + 4,000^2/100 + 8,000^2/10) / (2,000 + 4,000 + 8,000) = 468.8 people per square mile, not (2,000 + 4,000 + 8,000) / (1,000 + 100 + 10) = 12.6 people per square mile.
The reason is adding a huge area that nobody lived in (ex: 1 person across 1 million square miles) doesn’t change the calculation. (1^2/1,000,000 + 2,000^2/1,000 + 4,000^2/100 + 8,000^2/10) / (1+2,000 + 4,000 + 8,000) = 468.8 people per square mile
“Urban” Sweden is much different from other countries. For example, someone else urged us to compare Sweden to France. Yet Paris has a population density of 20000/km^2 versus Stockholm’s 4000/km^2. I’ve lived in places with both densities and one is considerably more “urban” than the other.
If you draw the border of Paris further and further out, I’m sure you can get the density as low as you want. Meaning: the density figure of a city says very little of how dense it is and says more about how far out into sparsely populated farmland the official city limit ends.
Go look at a Google street view of the far ends of Stockholm metro area…
Paris has a population density of 9,800/sq mi across 1,101.7 sq mi and an inner core of 53,000/sq mi across 40.7 sq mi.
Stockholm’s urban area of 11,000/sq mi across 147.35 sq mi, is comparable to Paris, but it’s inner core 73 sq mi is a much lower density 13,000/sq mi. Even if you assumed all those people lived in a 40 square mile “inner inner” core you still don’t get close to 53,000/sq mi.
So, assuming 3 areas 1,000 square miles with 2,000 people, 100 square miles with 4,000 people and 10 square miles with 8,000 people you do : (2,000^2/1,000 + 4,000^2/100 + 8,000^2/10) / (2,000 + 4,000 + 8,000) = 468.8 people per square mile, not (2,000 + 4,000 + 8,000) / (1,000 + 100 + 10) = 12.6 people per square mile.
The reason is adding a huge area that nobody lived in (ex: 1 person across 1 million square miles) doesn’t change the calculation. (1^2/1,000,000 + 2,000^2/1,000 + 4,000^2/100 + 8,000^2/10) / (1+2,000 + 4,000 + 8,000) = 468.8 people per square mile