400 square cm
Half the square root of the square radius equals the circle radius.
The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.
98 cm^2
48 inches
16.97056274
Half the square root of the square radius equals the circle radius.
If yo have the area of the circle, the square is irrelevant. Radius = sqrt(Area/pi)
The answer is 72, i think!
The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.The formula for the area of a circle is pi x radius2. The radius is half the diameter, and the diameter of an inscribed circle is the same as the length of a side of the square.
98 cm^2
The area of square is : 100.0
1
48 inches
16.97056274
No, you cannot be "square" on a radius in the traditional sense, as a radius is a straight line segment from the center of a circle to any point on its circumference. However, you can have a square inscribed in a circle, where the vertices of the square touch the circumference, but the concept of being "square" on a radius is not applicable.
A square inscribed in a circle is often referred to as a "circumscribed square." In this configuration, all four vertices of the square touch the circumference of the circle. The circle is known as the circumcircle of the square, and its radius is equal to the distance from the center of the circle to any of the square's vertices.
The largest rectangle would be a square. If the circle has radius a, the diameter is 2a. This diameter would also be the diameter of a square of side length b. Using the Pythagorean theorem, b2 + b2 = (2a)2. 2b2 = 4a2 b2 = 2a2 b = √(2a2) or a√2 = the length of the sides of the square The area of a square of side length b is therefore (√(2a2))2 = 2a2 which is the largest area for a rectangle inscribed in a circle of radius a.