Wiki User
∙ 13y agoThe first letter can be any one of the 6 letters. For each of those . . .
The second letter can be any one of the remaining 5 letters. For each of those . . .
The third letter can be any one of the remaining 4 letters. For each of those . . .
The fourth letter can be any one of the remaining 3 letters. For each of those . . .
The fifth letter can be any one of the remaining 2 letters.
The total number of different ways they can be arranged is (6 x 5 x 4 x 3 x 2) = 720 .
Wiki User
∙ 13y agoThe number of different ways you can arrange the letters MNOPQ is the number of permutations of 5 things taken 5 at a time. This is 5 factorial, or 120.
> 6.40237371 × 1015Actually, since there are four i's and two o's, the number of distinct permutations of the letters in "oversimplification" is 18!/(4!2!) = 133,382,785,536,000.
Since the letter of the word COMPARE are distinct, i.e. none of them repeat, then the number of different way you can arrange them is simply the number of permutations of 7 things taken 7 at a time. That is 7! or 5040.
The routing number 511111029 is for J.P. Morgan Chase. J.P. Morgan Chase operates different banks in more than 60 countries throughout the world.
12!/(5!*7!)The number of ways to arrange nitems is n!, where "!" is the factorial function. The number of ways we can arrange the 12 books is therefore 12!. However, we don't really care what order the first 5 books are in, or what order the last 7 books are in, as long as they're the same books. We therefore divide by the number of ways to arrange 5 books and the number of ways to arrange 7 books.
The number of different ways you can arrange the letters MNOPQ is the number of permutations of 5 things taken 5 at a time. This is 5 factorial, or 120.
There are 10 letters is the word JOURNALISM. Since they are all different, the number of ways you can arrange them is simply the number of permutations of 10 things taken 10 at a time, or 10 factorial, or 3,628,800.
Three
No.
Since the letters of the word THIS do not repeat each other, the number of different ways you can arrange them is simply the number of permutations of 4 things taken 4 at a time, or 4 factorial, or 24.No, I'm not going to list them, because that would trip Dingo-Bot for profanity. But you knew that, didn't you?
You can arrange the letters in "the letters in the word Hornet", in 7,480,328,917,501,440,000 different ways. There are 25 letter in all, but there are 2 each of n and o, 3 each of h and r, 5 each of e and t. So the number of ways is 25!/[2!*2!*3!*3!*5!*5!] where n! = 1*2*3*...*n
The number of arrangements of the letters PARTY, if the first letter must be an A is the same as the number of arrangements of the letters PRTY, and that is 4 factorial, or 24.
120 ways
The number of different ways that you can arrange 15 different items is given by the permutations of 15 things taken 15 at a time. That is 15 factorial, or 1,307,674,368,000.
The number of different ways the letters of a word can be arranged, when all the letters are different, is the same as the number of permutations of those letters. In this case, the answer is 5!, or 120.
If the four letters "A" are to be together, "AAAA", then it's like having four differentletters; AAAA, L, B, M.The number of different arrangements (permutations) of the 7 letters in the word"ALABAMA" putting the four As together are;4! =4x3x2x1 =24
How many different ways can we arrange 9 objects taken 3 at a time?