If reflections and rotations are excluded, there is only one.
Excluding reflections and rotations, there is only one 3x3 magic square using 1-9.
Can you answer this magic square problem with the following numbers its a 3 x 3 matrix, 1, -1, 2, -2, 3, -3, 4, -4, and 0? Thanks! Sure I will answer it for you !! Here is the answer: -3 4 -1 2 0 -2 1 -4 3
Using 1-6 can a magic triangle have a sum of 13
Impossible, as there are not enough numbers to cover all squares.
Through the magic of perms and coms the answer is 729
8
Excluding reflections and rotations, there is only one 3x3 magic square using 1-9.
Can you answer this magic square problem with the following numbers its a 3 x 3 matrix, 1, -1, 2, -2, 3, -3, 4, -4, and 0? Thanks! Sure I will answer it for you !! Here is the answer: -3 4 -1 2 0 -2 1 -4 3
Using 1-6 can a magic triangle have a sum of 13
Excluding rotations and reflections, there is only one 3x3 magic square.
The Magic Box flip phone is a unique cordless phone, in that it folds in half like a cell phone. One of the best features about this phone is that it stores up to 200 phone numbers. It only takes a few minutes to program your favorite phone numbers into the Magic Box, but this will save you time in the long run. Many phones only store the last number for redial, but the Magic Box stores five. The Magic Box flip phone also is unique in that it has two blue backlit LCD lights, so it makes it easier to find the phone in the dark.
Impossible, as there are not enough numbers to cover all squares.
123 123 123
Top row: 3-17-7 Middle row: 13-9-5 Bottom row: 11-1-15
( pi ) x ( 347/pi ) = 347
That expression can't actually be factored without using complex numbers. If you want to use complex numbers, then it would come out as a "difference of squares":(x + i)(x - i)
5, Using complex numbers you will always get 5 roots.