![]() The answer to the original question is the difference of these two numbers. ![]() (ii) The number of 5-letter words which can be formed using 10 distinct digits, such that no digit is repeated. This number is 10 5, since each place in the 5-letter word can be filled in 10 different ways, and so, the required number is 10 × 10 × 10 × 10 × 10 = 10 5. (i) The total number of 5-letter words (with or without repetition) which can be formed using 10 distinct letters. Thus, the number of such words is 7!Įxample 2: How many different 5-letter words can be formed using the letters from A to J (total ten letters) such that each word has at least one letter repeated? (b) If we fix T at the start and S at the end of the word, we have to permute 7 distinct letters in 7 places. Thus, the number of different permutations (or arrangements) of the letters of this word is 9P 9 = 9!. (a) There are 9 distinct letters in the given word. Here are some applications of permutations in real life scenarios.Įxample 1: (a) How many words can be formed using the letters of the word TRIANGLES? (b) How many of these words start with T and end with S? The number of permutations of 'n' things out of which 'r' things are taken and where the repetition is allowed is given by the formula: n r., 'r n' objects belong to the n th type is n! / (r 1! × r 2! ×. The number of permutations of 'n' things (where all are not different), among which there are 'r 1' objects are of one type, 'r 2' objects belong to the second type.The circular permutation formula says, the number of ways of arranging 'n' things in the circular shape is (n-1)!. ![]() Using the above formula, the total number of ways of arranging n different things (taking all at a time) is n! (this is because nP n = n! / (n - n)! = n!/0! = n!/1 = n!).The number of permutations (arrangements) of 'n' different things out of which 'r' things are taken at a time and where the repetition is not allowed is given by the formula: nP r = n! / (n - r)!.Here are different permutations formulas that are used in different scenarios. ![]() We have already seen the basic permutations formula in the previous section. ![]()
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