Yes, for a fixed perimeter, a circle contains the largest area.
well..... it could be the area of a circle and many other things (well shapes)
no, the cimcumference is the perimeter of the circle and the area included what is inside of the circle, area can be used for all shapes
The area of a circle is the amount of space inside the circle. The area of a circle is calculated by multiplying pi(3.14159) by the radius squared.
the amount of space inside a circle
The answer will depend on the shape that the circle is embedded in! There are different formulae for different shapes.
Circle and square are two entirely different shapes. But the ratio of areas of square to circle if their perimeter is equal is pi/4.
the circumference is pi times the diameter. the area is pi times radius-squared. And, of course, the Circumference is the distance around the circle, or the outside. While on the other hand, the area of a circle is the amount of space on the inside of a circle:) hope this helps !
"Space" is usually understood to be a 3-dimensional "volume", and in that sense, there is no 'space' inside a circle. A circle has "area", equal to (pi) times the square of the circle's radius.
It is its surface area
The area of a circle is the amount of space inside the circle. The circumference of a circle is the distance around the outside of the circle. (So no, they are not the same thing.)
The amount of space a circle takes up is determined by its area, which can be calculated using the formula A = π * r^2, where r is the radius of the circle.
There are several reasons why the bee's use the hexagon as their storage. # There is no lost space between hexagons. For example: squares can be placed on top of each other and on their sides, while if circles are stacked on their sides or on top of each other, there are parts between the circles that are not used. # Strong structure, one of the strongest known shapes is the circle, and the hexagon is the closest to the circle without lost space. # Large storage, like circles, they have more area covered then other shapes such as squares. I am sure there are more reasons why the hexagonal structure has advantages compared to others.