| |
|
| |
society = association
of persons united by common aim or interest |
| |
available population
= N = 6240272424 persons |
| |
|
| |
C
= number of combinations = N things taken
X at a time = N! / X! (N - X)! |
| |
number of persons
in smallest society = X1
= 2 persons per society |
 |
number of smallest
possible societies = C1
= 6240272424! / 2!(6240272424 - 2)! |
| |
|
| |
number of persons
in second smallest society = X2
= 3 persons per society |
|
number of second
smallest possible societies = C2
= 6240272424! / 3!(6240272424 - 3)! |
| |
|
| |
number of persons
in largest possible society = X3
= N = 6240272424 persons per society |
|
number of largest
possible societies = C3 |
| |
C3 = 6240272424! / 6240272424!(6240272424
- 6240272424)! |
| |
|
| |
number of persons
in societies of all sizes = 234...6240272424 persons |
| |
e
= 2^N
- (N - 1) |
|
every-society
= e = 2^6240272424 - (6240272424
- 1) possible societies
|
| |
|
| |
|
