Any three letters, in any order, including repeated letters gives 263 combinations each of which could have one of 9 digits so 26 x 26 x 26 x 9 ie 158184 different plates.
9
272
it 26 to the power 4 and then 99 for the numbers figure that out add the two together
There can be 26*9*10*10*10 = 234000 different plates. This assumes that the letter can be I (which may be confused with 1) or Z (2).
Multiply the possibilities for each digit: 26 * 26 * 26 * 10 * 10 * 10 = 17,576,000
384,475,000 license plates. There are 35 different letter/number combinations possible. Each combination has 10,985,000 variants. 35*10,985,000 = 384,475,000
35,152,000 (assuming that 000 is a valid number, and that no letter combinations are disallowed for offensive connotations.) Also, no letters are disallowed because of possible confusion between letters and numbers eg 0 and O.
There are 26 possible letters and 10 possible numbers. The number of license plates possible is then 26*26*10*10*10*10 = 6760000.
If all letters and numbers are allowed, the possibilities are 26x26x10x10x10x10. So: 6760000 different plates.
each of the four numbers have 10 possibilities, and each of the three letters have 26 possibilities. so the total possible ways u can arrange them are 10x10x10x10x26x26x26 this totals up to 175,760,000 different license plate numbers
(26) x (26) x (10,000) = 6,760,000
263 x 98 (assuming "00" is not used) ie 1,722,448
1x26x26x26x10x10x10=17576000
it 26 to the power 4 and then 99 for the numbers figure that out add the two together
There can be 26*9*10*10*10 = 234000 different plates. This assumes that the letter can be I (which may be confused with 1) or Z (2).
For every letter there are 26 possibilities, for every digit, 10. Multiply all of this together (26 x 26 x 10 x 10 x 10) = 676,000.
If you assume 26 different letters, there are 26 to the power 5 possible variations of 5 letters.
Multiply the possibilities for each digit: 26 * 26 * 26 * 10 * 10 * 10 = 17,576,000
No