There are 26 possibilities for the first two blanks and 10 possibilities each for the last 4 blanks.
Then we can derive this equation:
26*26*10*10*10*10= 6,760,000 possibilities.
There are 26 possible letters and 10 possible numbers. The number of license plates possible is then 26*26*10*10*10*10 = 6760000.
1757600
(26) x (26) x (10,000) = 6,760,000
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
There are 26 choices for each of the two letters, and 10 choices for each of the four numbers. Therefore, the total number of license plates that can be made is (26 * 26) * (10 * 10 * 10 * 10) = 676,000.
There are 26 possible letters and 10 possible numbers. The number of license plates possible is then 26*26*10*10*10*10 = 6760000.
1757600
How many license plates can be made using either two uppercase English letters followed by four digits or two digits followed by four uppercase English letters?
I know of no automobile that does not require a license to operate on public streets and roads.
(26) x (26) x (10,000) = 6,760,000
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.
263 x 98 (assuming "00" is not used) ie 1,722,448
1x26x26x26x10x10x10=17576000
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
it 26 to the power 4 and then 99 for the numbers figure that out add the two together
no