The word "monkey" consists of 6 distinct letters. The number of ways to arrange these letters is given by the factorial of the number of letters, which is 6!. Calculating this, we find that 6! = 720. Therefore, there are 720 different ways to arrange the letters in "monkey."
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.
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
5!/2=60 [If all the letters were different, it would be 5!=120. But you need to divide by two since "e" appears twice.]
Oh, what a lovely word to arrange! Let's see here, with the word "literature," we have 10 letters in total. Since some letters are repeated, we need to account for that in our count. So, there are 10!/(2!2!) = 453600 distinct ways to arrange the letters of "literature" in total. Isn't that just delightful?
First, count how many letters you have--A, B, C, D, E, and F--6. Then, the problem is the number multiplied by the ones below it. 6x5x4x3x2x1. You can get rid of the one, because anything multiplied by 1 is itself. 6x5x4x3x2=720. You can arrange these six letters in 720 possible ways. If the row could be vertical or horizontal, the number doubles to 1440.
feelings
relieved
If the order matters, i don't know, but if matter doesn't matter you can arrange the letters to get 120 orders.
r b l j a y c e a
There are 6! = 6*5*4*3*2*1 = 720 ways.In half of these b will be to the left of e and in the other half it will be to the right. So the answer is 360 ways.
You arrange the bones so that the bones form the letters "T-E-N" (2 bones, 4 bones, 3 bones).
The number of ways you can arrange the numbers 1 to 5 is calculated using the concept of permutations. There are 5 numbers to arrange, so the total number of arrangements is 5 factorial, denoted as 5!. Therefore, the number of ways to arrange the numbers 1 to 5 is 5! = 5 x 4 x 3 x 2 x 1 = 120 ways.