Combinations are just an application of the counting principle?

AI Thread Summary
Combinations can indeed be viewed as an application of the counting principle, which helps determine the number of possible outcomes when multiple events occur. The counting principle states that if an event can occur in A ways and another in B ways, the total outcomes are AB. Combinations specifically refer to selecting K items from N without regard to order, represented by the formula N!/(K!(N-K)!), while permutations account for order. The discussion clarifies that both concepts derive from the fundamental counting principle, enhancing understanding of their mathematical relationships. Overall, combinations and permutations exemplify the practical application of counting principles in combinatorial mathematics.
skrying
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Is it fair to say combinations are just an application of the counting principle? I already understand that permutations are just an application of fundamental principle and that combinations are just an application of permutations. If it's fair to say that combinations are in fact, just an application of the counting principle, then would their be a specific formula that proves as such? :!)
 
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Pardon my ignorance. What is "the counting principle"?
 
The counting principle

The counting principle is dealing with the occurrence of more than one event, thus being able to quickly determine how many possible outcomes exist.
Kind of like sequences, if that makes more sense.
 
Counting principal for multiplication is: If something can be done in A ways and something else can be done in B ways, then the entire event can be done in AB ways.
For addition it means that in disjoint sets A and B, if we have K choices in A and L choices in B, then we have K+L choices in A union B.

Combinations and permutations then seem to be just that, applications of the counting principal. Possibly, skrying is aware that the combinations of N things taken K at a time is:

\frac{N!}{K!(N-K)!} And for permutations: \frac{N!}{(N-K)!}
 
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Thank you Robert

Thank you Robert, that explanation and the examples were really helpful. You explained it so it actually "makes sense" to me. Much appreciated! :smile:
 

Thread 'Formal derivation of statement from Peano Arithmetic system'

I was reading a Bachelor thesis on Peano Arithmetic (PA). PA has the following axioms (not including the induction schema): $$\begin{align} & (A1) ~~~~ \forall x \neg (x + 1 = 0) \nonumber \\ & (A2) ~~~~ \forall xy (x + 1 =y + 1 \to x = y) \nonumber \\ & (A3) ~~~~ \forall x (x + 0 = x) \nonumber \\ & (A4) ~~~~ \forall xy (x + (y +1) = (x + y ) + 1) \nonumber \\ & (A5) ~~~~ \forall x (x \cdot 0 = 0) \nonumber \\ & (A6) ~~~~ \forall xy (x \cdot (y + 1) = (x \cdot y) + x) \nonumber...
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