Let's call it 80% for biden (no way it is this high but let's be super generous).
4^138000/5^138000
Cool. won't fit in a calculator.
Log base 10 of 4 = .602
Log base 10 of 5 = .699
138000 * .602 = 83076 (that many digits in 4^138000)
138000 * .699 = 96462
dividing and cancelling exponents we get 1 in 10^13386.
there isn't a way to picture how big that number is really. But I'll try to give an example.
There are 10^80 particles in the universe. If each of those particles was its own universe and we counted all the particles in all those universes, we would get 10^160. If each of those particles was its own universe we would get 10^240. Then 10^320. Then 10^400.
If we did that 167 times and took that number (10^13360) and simulated these votes that many times, it would still be a hundred million billion billion to 1 against.
Let's call it 80% for biden (no way it is this high but let's be super generous).
4^138000/5^138000 Cool. won't fit in a calculator.
Log base 10 of 4 = .602 Log base 10 of 5 = .699
138000 * .602 = 83076 (that many digits in 4^138000) 138000 * .699 = 96462
dividing and cancelling exponents we get 1 in 10^13386.
there isn't a way to picture how big that number is really. But I'll try to give an example.
There are 10^80 particles in the universe. If each of those particles was its own universe and we counted all the particles in all those universes, we would get 10^160. If each of those particles was its own universe we would get 10^240. Then 10^320. Then 10^400.
If we did that 167 times and took that number (10^13360) and simulated these votes that many times, it would still be a hundred million billion billion to 1 against.