Number of factor pairs = number of rectangles
Yes. Factor pairs are always repeated across pairs since factor pairs are certain kinds of pairs.
The factor pairs of 27 are 1x27 and 3x9.
The factor pairs of 14 are 1*14, and 2*7
1x40, 2x20, 4x10, 5x8 are all the factor pairs of 40.
There are 2 factor pairs of 26.26 = 1 x 2626 = 2 x 13
One to one.
One to one.
The factor pairs are the length and width of the rectangles.
As I understand it, the number of factor pairs is equal to the number of rectangles.
If you can compile a complete list of all different rectangular models with sides of integer length for a number then their lengths and breadths represent its factors.
The number of square tiles is always equal to factor pairs. As an example, imagine a rectangle that contains 8 squares - 2 rows of 4. 2 X 4 = 8. In other words, the dimensions of the rectangles are ALWAYS equal to a factor pair of the number of squares in the rectangle. A rectangle containing 24 squares could be made as 24x1, 12x2, 8x3, or 6x4.
The number of square tiles is always equal to factor pairs. As an example, imagine a rectangle that contains 8 squares - 2 rows of 4. 2 X 4 = 8. In other words, the dimensions of the rectangles are ALWAYS equal to a factor pair of the number of squares in the rectangle. A rectangle containing 24 squares could be made as 24x1, 12x2, 8x3, or 6x4.
22 x 1 11 x 2
One rectangle per factor pair, six total.
No. There could be three pairs of rectangles with different dimensions.
Both have 90 degree angles and both have 2 pairs of parallel sides
The answer depends on the number of tiles.