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In general, there is no relationship between area and perimeter.
You cannot. There is no direct relationship between perimeter and area.
yes, it is correct perimeter = d * pi pi is the ratio between the perimeter and the diameter
It is a strict linear relationship. Double the size, double the perimeter. The area, however, increases by the square of the scale factor.
the perimeter is all of the sides added up, the length and width would only give you half of the perimeter i think...
In general, there is no relationship between area and perimeter.
You cannot. There is no direct relationship between perimeter and area.
Sentences are sometimes made up by clauses.
x2=y
There is no standard relationship between perimeter and area. For example, you can have two rectangles that have the same perimeter, but different area.
yes, it is correct perimeter = d * pi pi is the ratio between the perimeter and the diameter
It is a strict linear relationship. Double the size, double the perimeter. The area, however, increases by the square of the scale factor.
the perimeter is all of the sides added up, the length and width would only give you half of the perimeter i think...
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.
Very little. Both may refer to plane figures, or plane surfaces of objects in 3 (or more) dimensions. But the differences are more important. An area is a 2-dimensional concept whereas a perimeter is 1-dimensional. It is possible to increase the perimeter of a shape while reducing the area. The two measure different attributes of a shape and so there is no direct relationship between the them.
For a fixed area, the perimeter is minimum for a circle, but has no maximum. Fractal figures (such as Koch snowflake) may have a finite area within an infinite perimeter.
The answer will depend upon what shape the object is. For example, if the shape was a rectangle then the perimeter = (length + width) * 2. If the shape was something different then the relationship would also be different.