Number of distinct permutations: - Anadea
Number of Distinct Permutations: A Complete Guide
Number of Distinct Permutations: A Complete Guide
When working with permutations, one fundamental question arises: how many distinct ways can a set of items be arranged? Understanding the number of distinct permutations is essential in mathematics, computer science, statistics, and real-world applications like cryptography and combinatorics. This article explores the concept of distinct permutations, how to calculate them, and real-world implications.
What Are Distinct Permutations?
Understanding the Context
A permutation refers to an arrangement of all or part of a set of items where the order matters. A distinct permutation considers unique sequences when repeating elements are present. For example, the string βAABβ has fewer distinct permutations than βABCβ due to the repetition of the letter βAβ.
How to Calculate the Number of Distinct Permutations
1. Permutations of Distinct Objects
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Key Insights
If you have n distinct items, the total number of permutations is simply:
\[
n! = n \ imes (n-1) \ imes (n-2) \ imes \dots \ imes 1
\]
For example, βABCβ has \( 3! = 6 \) permutations: ABC, ACB, BAC, BCA, CAB, CBA.
2. Permutations with Repeated Items
When items are repeated, the formula adjusts by dividing by the factorial of the counts of each repeated item to eliminate indistinguishable arrangements.
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If a word or set contains:
- \( n \) total items
- \( n_1 \) identical items of type 1
- \( n_2 \) identical items of type 2
- β¦
- \( n_k \) identical items of type k
where \( n_1 + n_2 + \dots + n_k = n \), then the number of distinct permutations is:
\[
\frac{n!}{n_1! \ imes n_2! \ imes \dots \ imes n_k!}
\]
Example:
How many distinct permutations of the word βBANANAβ?
Letters: B, A, N, A, N, A
Counts:
- 1 A
- 3 Ns
- 1 B
Total letters: \( n = 6 \)
\[
\ ext{Distinct permutations} = \frac{6!}{3! \ imes 1! \ imes 1!} = \frac{720}{6 \ imes 1 \ imes 1} = 120
\]
