So the diagonal of the square will be 10m
Use Pythagoras' theorem to find the length x of the square:
x2+x2 = 100
2x2 = 100
Divide both sides by 2:
x2 = 50
Square root both sides:
x = 7.071067812
Therefore: length of one side = 7.071067812 meters
It depends on the diameter of the circle and the width of the square, if they are the same then the answer is no. If you draw yourself a square then inscribe a circle with a radius of half the length of a side of the square, the circle will fit inside the square but the corners of the square will be outside the circle. Thus by inspection the area of the square is larger than the area of the circle.
The radius is 30 inches.
No. A circle has no corners and a square has four corners. There is no object that has no corners and four corners.
Area of a circle = pi*radius2 The radius of the circle will be 1/2 the size of the length of a side of the square.
Radius: square root of (12.56/pi) = 2 rounded to nearest integer
It is not. If you draw yourself a square then inscribe a circle with a radius of half the length of a side of the square, the circle will fit inside the square but the corners of the square will be outside the circle. Thus by inspection the area of the square is larger than the area of the circle.
It depends on the diameter of the circle and the width of the square, if they are the same then the answer is no. If you draw yourself a square then inscribe a circle with a radius of half the length of a side of the square, the circle will fit inside the square but the corners of the square will be outside the circle. Thus by inspection the area of the square is larger than the area of the circle.
A square does not have a radius. A square, with sides of length x units, can have an inscribed circle. Such a circle would have a radius of x/2 units. Or the square could have a circumscribing circle. This would have a radius of x/sqrt(2) units.
Half the length of a side of the square.
Radius is 30 inches.
The radius is 30 inches.
No. A circle has no corners and a square has four corners. There is no object that has no corners and four corners.
Well, since the circle is inside the square, the edges of the square define the limits of the circle. Since we have a square, the length of each side is the square root of 800ft. The radius of the circle is half the length of the sides. Therefore, the answer is half of (the square root of 800), which makes for an ugly radius value of "14.142135623730950488016887242097" ft
Area of a circle = pi*radius2 The radius of the circle will be 1/2 the size of the length of a side of the square.
Radius: square root of (12.56/pi) = 2 rounded to nearest integer
Given: a square with side = s and a circle with radius = s (radius is equal to the length of the side of the square) Areasquare = side squared = s2 Areacircle = pi times the square of the radius = pi times s2 Areasquare : areacircle = s2 : pi s2 = 1 : pi (The ratio is one to pi.)
The center of the circle is at (0, 0) and its radius is the square root of 1 which is 1