Film, Media & TV67 mins ago
Mathematics
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If you take 20 letters of the alphabet, what is the maths for calculating all possible combinations using all 20 leters each time please?
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A combination is a particular set of symbols independent of their ordering or arrangement. So the answer to your question is one
I believe that what you might want to know is how many permutations there are. Permutation is an ordering; a rearrangement, of the symbols.
There are 2432902008176640000 permutations of 20 symbols.
You asked also what is the maths. I will post a web site that will show you how to make the calculation
A combination is a particular set of symbols independent of their ordering or arrangement. So the answer to your question is one
I believe that what you might want to know is how many permutations there are. Permutation is an ordering; a rearrangement, of the symbols.
There are 2432902008176640000 permutations of 20 symbols.
You asked also what is the maths. I will post a web site that will show you how to make the calculation
There are two links below that show how to calculate both combinations and permutations
http://www.wcrl.ars.usda.gov/cec/h.htm#javscrt
and this one;
http://www.ciphersbyritter.com/JAVASCRP/PERMCOMB.H
TM
you will see that they both calculate the perutations as 2,432,902,008,176,640,000 which is quite a lot of small change.
http://www.wcrl.ars.usda.gov/cec/h.htm#javscrt
and this one;
http://www.ciphersbyritter.com/JAVASCRP/PERMCOMB.H
TM
you will see that they both calculate the perutations as 2,432,902,008,176,640,000 which is quite a lot of small change.
Well, mikewall01, if you wanted to be very accurate indeed you could call the above answers incorrect, but the percentage difference falls into the millionths of 1%. As you know, nPr is the symbol for permutations, where n is the big number and r is the small one. The way I think of it is 'The number of ways of choosing r objects out of a bag containing n objects, and then arranging those r objects in every possible order.' Hence an alternative way of calculating permutations is to consider the factorial of r (the number of ways of arranging r objects in any order), and then multiply it by nCr (the combinations of choosing r objects out of a bag containing n; for example, the number of possible ways that you could knock down 8 bowling pins and leave 2 standing would be 10C2 on a calculator, or [10!/(10-2)!x2!] if you wanted to do it on paper.) What this comes down to is that if the permutation calculation is rearranged for the alphabet question, it gives:
nCr x r! = nPr
20C20 = (20! / (20!)2) x 20! = 1 / 20! x 20!
The above will obviously be equal to one, so going back to the first line of the calculation:
1 x 20! = 20P20
(Exceeding 2000 characters now')
nCr x r! = nPr
20C20 = (20! / (20!)2) x 20! = 1 / 20! x 20!
The above will obviously be equal to one, so going back to the first line of the calculation:
1 x 20! = 20P20
(Exceeding 2000 characters now')
I hope I have explained this OK, but to summarise so you will remember in future:
Combinations. The number of ways of picking r balls out of a bag containing n, then holding them in your hand, so they are in no particular order. (Example: number of ways of selecting a football team out of a group of 30)
Permutations. The number of ways of picking r balls out of a bag containing n, then arranging the balls you picked in every possible order. (Example: number of ways of putting 3 eggs in 5 egg cups.)
P.S. Looks like I left the italic on in the above post - oops.
Combinations. The number of ways of picking r balls out of a bag containing n, then holding them in your hand, so they are in no particular order. (Example: number of ways of selecting a football team out of a group of 30)
Permutations. The number of ways of picking r balls out of a bag containing n, then arranging the balls you picked in every possible order. (Example: number of ways of putting 3 eggs in 5 egg cups.)
P.S. Looks like I left the italic on in the above post - oops.