4,4
6,2
(1+2) = 3 + 5 = 8
(2+3) = 5 +4 = 9 - 1 = 8
(3+4) = 7 + 1 = 8
(4+5) = 9 - 1 = 8
(5+6) = 11 - (1+2) = 11 - 3 = 8
(6*4) - (3*5) = 24 - 15 = 9 - 1 = 8
Using all the numbers 1 through 6
(1*2) = 2 + 3 + 4 + 5 - 6 = 8
There is only one combination. The order does not matter in a combination.
Three: one using only nickels, one using only dimes and one using only quarters!
The best way to estimate a quotient using compatible numbers is to first understand how compatible numbers work. They are numbers that are close in value to the actual numbers and are easily added, subtracted or divided.
6 - 123, 132, 213, 231, 312, and 321.
Write them in a column. Since there is only one number per row, there is no chance of consecutive numbers being in the same row.
There is only one combination. In a combination the order of the numbers does not matter so the only combination is 0123456789. This is the same as 1326458097
By adding 5+1 to get the sum of six.
If we're considering only whole numbers, then 64 is the only one. If we're including fractions/decimals, then there are an infinite number of tham.
Through the magic of perms and coms the answer is 729
4 factorial, or 4!, equals 24
More than one
46
There is only one combination. The order does not matter in a combination.
There is only one combination since the order of the numbers in a combination does not matter.
The only factor common to all those numbers is 1.
2 sixths3 ninthsis tht what you mean?
There are 360 of them.