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There are often multiple 'correct' dimensions for these problems. The most straight forward way to solve it is to list all the factors that, when multiplied, equal the area. Then from this list, cross out the factors that DON'T equal your perimeter. The remaining factors are your possible dimensions.
No, it is not. I'll give you two examples of a rectangle with a perimeter of 1. The first rectangle has dimensions of 1/4x1/4. The area is 1/16. The second rectangle has dimensions of 3/8x1/8. The area is 3/64. You can clearly see that these two rectangles have the same perimeter, yet the area is different.
If the dimensions are restricted to whole numbers, then the only possibilities are 1 x 4 and 2 x 3.
There are infinitely many: 1*22, 5*4.4, 4*5.5 are three examples.
If you have the information of the area is easy from there all you do is multiply it by itself P=2(times)L + 2(times)W A=L(times) W :)
There are often multiple 'correct' dimensions for these problems. The most straight forward way to solve it is to list all the factors that, when multiplied, equal the area. Then from this list, cross out the factors that DON'T equal your perimeter. The remaining factors are your possible dimensions.
24
No, it is not. I'll give you two examples of a rectangle with a perimeter of 1. The first rectangle has dimensions of 1/4x1/4. The area is 1/16. The second rectangle has dimensions of 3/8x1/8. The area is 3/64. You can clearly see that these two rectangles have the same perimeter, yet the area is different.
5 sides
If the dimensions are restricted to whole numbers, then the only possibilities are 1 x 4 and 2 x 3.
There are infinitely many: 1*22, 5*4.4, 4*5.5 are three examples.
You can't. The perimeter doesn't tell the area. There are an infinite number of shapes with different dimensions and different areas that all have the same perimeter.
If you have the information of the area is easy from there all you do is multiply it by itself P=2(times)L + 2(times)W A=L(times) W :)
There is no relationship between the perimeter and area of a rectangle. Knowing the perimeter, it's not possible to find the area. If you pick a number for the perimeter, there are an infinite number of rectangles with different areas that all have that perimeter. Knowing the area, it's not possible to find the perimeter. If you pick a number for the area, there are an infinite number of rectangles with different perimeters that all have that area.
1 x 20 2 x 10 4 x 5
A rectangle has only two dimensions, for example, length and width. If you multiply that, you get the area. A rectangular box has a length, width, and height. If you multiply all three, you get the volume.
There are infinitely many possible dimensions.The length can have any value greater than or equal to 8 units, and for each value of the length, there will be a different width.For example, 8*8,80*0.8800*0.088000*0.008 and so on.