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We first make an assumption that you are picking 5 letters from 26. If this is not the case, the problem is different. This is covered at the end of the answer.
With repetition allowed (letters can be re-used), and order is not important since it is a combination (not a permutation), it is (26+5-1)!/(5!)(26-1)! This is a really big number!
If it were a permutation with repetition, this is the same as the number of ways to pick 5 things from 26 with replacement. There are 26 choices for each letter, so you
have 26x26x26x26x26 permutations.
No repetition, order is important, it is 26! / (26-5)! = 26 x 25 x 24 x 23 x 22 = 7,893,600
No repetition, order doesn't matter (ABCDE is the same as EDCBA is the same as CEDAB, etc), it is 26! / (5!(26-5)!) = (26 x 25 x 24 x 23 x 22)/(5 x 4 x 3 x 2 x 1) = 65,780
What if you just have 5 letter already picked. Meaning you are not worried about picking the 5 from the alphabet, you already have 5 fixed letter. Some may be the same letter or not.
If you allow for repetition of the letters, you have 5x5x5x5x5 permutations.
For combinations, it would be 11!/5!4!=7983360
MOST LIKELY, you just have 5 distinct letters and you want to arrange them where order does matter and you cannnot repeat.
In this case you have 5 choices for the first letter, 4 for the second, 3 for the third etc. So you have 5! or 120 choices.
Of course if you have 5 things and the order does not matter, there is only 1 way to arrange them. For example. ABCDE is the same as ABEDC.
So in dealing with combinations and permuations, the language must be quite exact. A small difference changes the entire problem.
See related MathsIsFun link for more information.
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How many different 4 letter combinations can you make with 6 different letters?
6P4 = 6!/(6-4)! = 6 * 5 * 4 * 3 = 360 four letter permutations from 6 different letters.6C4 = 6!/[4!∙(6-4)!] = 15 four letter combinationsfrom 6 different letters.
How many ways are there to arrange the letters in the word green?
There are 120 ways to order a 5 letter word, however, since there are two "e" letters in the word "green", the number of combinations is only 60.
How many 5 numbers combinations can you make from 1 2 3 4 5?
If digits can be reused, then 5x5x5x5x5 = 3125. If digits cannot be reused, then 5x4x3x2x1 = 120.
How many 5 digit combinations are in 12345?
Just 1.
How many different arrangements can be made with the letters in the word MOVIE?
5! 5 * 4 * 3 * 2 *1 = 120 arrangements you take the number of letters in the words and make it a factorial.
How many combinations can you make with 5 letters when letters can be repeated?
7,893,600 (seven million, 8 hundred ninety-three thousand, 600) combinations in English.
How many combinations are there with 5 letters?
120 ABCDE , there are 120 ways these five letters can be rearranged.
How many combinations can you make with the numbers 2 3 6 7 and 8?
You can make 5 combinations of 1 number, 10 combinations of 2 numbers, 10 combinations of 3 numbers, 5 combinations of 4 numbers, and 1 combinations of 5 number. 31 in all.
How many 4 number combinations are there in the numbers 0 to 5?
The first digit can be one of five integers (1 to 5) The second - fourth digits one of six integers (0 to 5). So: number of (valid) combinations is 5*6*6*6=1080 * * * * * This gives the number of permutations, not combinations. I am working on the latter.
How many 1 letter and 1 number combinations can be made from 5 numbers and 4 letters?
20
How many combinations of three can you make with 5 choices?
5C3 = 10
How many four- letter combinations can be made from the the letters a b c d and e?
5. One each with one of the 5 letters left out: abcd, abce, abde, acde and bcde.
How many five number combinations can you make from 5 numbers?
Only one.
How many 5 number combinations can you make from 1 - 56?
56C5 = 3,819,816
How many different combinations can you make with 5 squares?
one hundred and twenty
John has 5 spoons and 4 forks How many different combinations of silverware could he make?
20 different combinations of silverware
How many combinations of outfits can you make with 3 skirts and 5 jackets?
3 x 5 = 15
