Some people like to visualize factors as representing the lengths of sides of rectangles. In the same way that length times width equals area, factor times factor equals product.
The number of rectangles you can build with a prime number of tiles depends on many factors such as shape, size, and uniformity of the tiles.
One rectangle for each factor pair.
All factors of 18 are factors of 36, because 18 itself is a factor of 36.
No. It doesn't matter what factors you choose at the beginning, but all the factors should be prime at the end.
Since 48 is a factor of 96, all the factors of 48 will be factors of 96.
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.
Rectangles are related to the distributive property because you can divide a rectangle into smaller rectangles. The sum of the areas of the smaller rectangles will equal the area of the larger rectangle.
Any number is divisible by its factors.
The prime factors of 42 are 2, 3 and 7. I'd have to see the rectangles to know what to write in them.
call 1800-GET-A-LIFE
All parallelograms are not rectangles. The angles of a parallelogram need not be right angles and so the figure need not be a rectangle.
24
Number of factor pairs = number of rectangles
22 is a composite number with four factors, which means two rectangles.
As I understand it, the number of factor pairs is equal to the number of rectangles.
80
No. All rectangles are not squares. Think of rectangles and squares as boxes. Would you be able to fit a rectangle into the square box? Nope. But you would be able to fit the square into the rectangle box. <---- Hope that helped. :)