Combinatorial justification on n^2=(n-1)^2+2(n-1)+1

Julian Werner

Julian Werner

Answered question

2022-09-06

Combinatorial justification on n 2 = ( n 1 ) 2 + 2 ( n 1 ) + 1
Not sure how how to prove this through combinatorial justification, now I know that the RHS is just n 2 after simplification but that would be an algebraic proof not combinatorial.
In the LHS, say there are a group of size of 2n items, evenly separated into 2 sub-groups, each sub-group contain exactly n items. To pick 2 items total, that is to pick 1 item from each of the sub-groups, together there will be n 2 of possibility to pick from.
Now the RHS. I can say that ( n 1 ) 2 is somewhat similar from what i described above but with only a sub-group that has size ( n 1 ), in the end, you would still be able to pick 2 items that each is from a ( n 1 ) sub-group.
And that 2 ( n 1 ) = 2 n 2. Which is kind of similar like n 1 situation but is choosing from 2 n 2 size group of items. in the end, you just add another item with +1 at the end to combine into 2 items ..

Answer & Explanation

Manuel Leach

Manuel Leach

Beginner2022-09-07Added 13 answers

Step 1
Consider the number of ordered pairs (a, b) you can make from the set {1,2,…,n}. This is n 2 , since you have n choices for the first element a and n choices for the second element b.
Step 2
We can split this sample space of n 2 pairs into the RHS as follows. Consider the number of ordered pairs you can form from just the set { 1 , 2 , , n 1 } ; this is ( n 1 ) 2 . This gets you all the ordered pairs that do not include n. To count the number of ordered pairs that do include n, either n must be the first element (in which we have n 1 possibilities: (n, 1) through (n, n 1)), the second element (in which we also have n 1 possibilities: (1, n) through ( n 1, n)), or n could be both elements (the sole pair (n, n)).
This gives us
n 2 =  # ordered pairs from {1, …, n} =  # ordered pairs not including element “n” +  # ordered pairs including element “n” = ( n 1 ) 2 + ( 2 ( n 1 ) + 1 ) .
trestegp0

trestegp0

Beginner2022-09-08Added 12 answers

Step 1
Consider this argument:
Suppose you have a collection of balls, of n different colors (red, blue, etc.) and n different patterns (striped, solid, etc.). Each one has a unique color-and-pattern combination, and each possible combination is used. How might you count them?
Trivially, n n = n 2 gives one enumeration.
Step 2
What if you set aside all of the balls that have a specific color or a specific pattern? Then you have n 1 colors and patterns that don't fit, for ( n 1 ) 2 total. Of those you set aside, you have n balls of the given color, and n of the given pattern, and one that is both. Hence, you have 2 ( n 1 ) balls that only fit one criteria, and 1 that fits both.
Hence,
n 2 = ( n 1 ) 2 + 2 ( n 1 ) + 1

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