"Permutations" do consider the order. If you want the order ignored,
then you're looking for "combinations".
3-digit permutations, repetition allowed: 9 x 9 x 9 = 729
3-digit permutations, no repetition: 9 x 8 x 7 = 504
3-digit combinations, no repetition = 504/6 = 84.
There is only one possible combination as a combination is the same no matter what the order is. There are 120 permutations, which is where the order does matter.
10! permutations of the word "Arithmetic" may be made.
If the numbers are not allowed to repeat themselves then 362,880. * * * * * That is the number of permutations, not combinations. In a combination the order of the digits does not matter. So there is only one 9-digit combination.
If the 6 digits can be repeated, there are 1296 different combinations. If you cannot repeat digits in the combination there are 360 different combinations. * * * * * No. That is the number of PERMUTATIONS, not COMBINATIONS. If you have 6 different digits, you can make only 15 4-digit combinations from them.
3x2x1=6 permutations.
It depends on how many digit you are choosing from.
There is only one possible combination as a combination is the same no matter what the order is. There are 120 permutations, which is where the order does matter.
There is only one combination. There are many permutations, though.
Given the individual digits: 4, 6, 9, 1, and 3,the number of 4-digit permutations is (5! / 1!) = (5 x 4 x 3 x 2) = 120 .The number of combinations is [ 5! / (1!4!) ] = 5 .
10! permutations of the word "Arithmetic" may be made.
Using the eight digits, 1 - 8 ,-- There are 40,320 eight-digit permutations.-- There is 1 eight-digit combination.
There are 7893600 permutations.
In case of digits or numbers, when we say combination, since the order of the numbers matters, we really need to find the permutations. For example, 12 and 21 are two permutations and not combination. The permutation for 10 digits chosen 5 ways is 10*9*8*7*6, which is 30240. But how many are there in whole like four digit has 24.
If the numbers are not allowed to repeat themselves then 362,880. * * * * * That is the number of permutations, not combinations. In a combination the order of the digits does not matter. So there is only one 9-digit combination.
There are 5,273,912,160 permutations of 5 numbers out of 90.
act
If the 6 digits can be repeated, there are 1296 different combinations. If you cannot repeat digits in the combination there are 360 different combinations. * * * * * No. That is the number of PERMUTATIONS, not COMBINATIONS. If you have 6 different digits, you can make only 15 4-digit combinations from them.