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Four combinations: tam ham mat hat Hope it helps (:!
Starting with three different letters, six two-letter combinations can be made, if the order of the two letters is important. Only three combinations can be made if the order of the two letters is not important. Example: ABC AB AC BA BC CA CB - six variations But if (for your purposes) BA is the same as AB, Then there are only three: AB AC BC
The letters M, A, T, and H can be arranged in different combinations by calculating the factorial of the number of letters. Since there are 4 unique letters, the total number of combinations is 4! (4 factorial), which equals 24. Therefore, 24 different combinations of the letters M, A, T, and H can be formed.
Because there are 7 letters that don't repeat, 7X6X5X4=840 combinations. To give you an idea of how to solve the problem, if there had been 9 letters and you wanted to make combinations of 3 letters, you would multiply: 9X8X7=504
There are many word combinations for these letters, IUEDNVHS, but no one word can be made from these 8 letters.
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Four combinations: tam ham mat hat Hope it helps (:!
No is a word. On is a word.
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Starting with three different letters, six two-letter combinations can be made, if the order of the two letters is important. Only three combinations can be made if the order of the two letters is not important. Example: ABC AB AC BA BC CA CB - six variations But if (for your purposes) BA is the same as AB, Then there are only three: AB AC BC
The letters M, A, T, and H can be arranged in different combinations by calculating the factorial of the number of letters. Since there are 4 unique letters, the total number of combinations is 4! (4 factorial), which equals 24. Therefore, 24 different combinations of the letters M, A, T, and H can be formed.
256 iThink * * * * * It depends on combinations of how many. There is 1 combination of 4 letters out of 4, 4 combinations of 3 letters out of 4, 6 combinations of 2 letters out of 4, 4 combinations of 1 letter out of 4. Than makes 15 (= 24-1) in all. Well below the 256 suggested by the previous answer.
Because there are 7 letters that don't repeat, 7X6X5X4=840 combinations. To give you an idea of how to solve the problem, if there had been 9 letters and you wanted to make combinations of 3 letters, you would multiply: 9X8X7=504
To calculate the number of license plate combinations using three letters and four numbers, we consider the possibilities for each part separately. There are 26 letters in the English alphabet, so for three letters, there are (26^3) combinations. For the four numbers, using digits 0-9, there are (10^4) combinations. Therefore, the total number of combinations is (26^3 \times 10^4), which equals 17,576,000 combinations.
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