Want this question answered?
All complex number that can be represented by the coordinates of points on the unit circle, that is, the circle with its centre at the origin and a radius of 1 unit.
One use is to compact a large area into a small one or vice versa. The complex formula is 1/z, which is inversion. All pairs of complex numbers with absolute value less than 1 will be transformed outside the unit circle and the infinite complex plane will be compacted inside the unit circle! This simple formula produces the real part u=x/(xx+yy) and imaginary part v=-y/(xx+yy). Points approaching infinity will go to zero inside the unit circle!
The greatest common denominator for these numbers is 2, and any other common denominator is a divisor of 2, so one of the following: 2,1,-1,-2. Extending to complex numbers one would get the unit circle and the circle of radius 2.
it is circle!hahax!
a line that joins two points on a circle
8, and minus 8. If you want to include complex numbers, all numbers on a circle with radius 8.
I have no idea. But I hear it's pretty easy to put text around a circle in Inkscape.
In the real numbers, 9 and minus 9. In the complex numbers, any number on the unit circle with radius 9.
A unit circle is in the coordinate plane where both axes are measured in real numbers. The imaginary circle is in the complex plane in which one axis (horizontal) measures the real component of a complex number and the other axis measures the imaginary component.
All complex number that can be represented by the coordinates of points on the unit circle, that is, the circle with its centre at the origin and a radius of 1 unit.
One use is to compact a large area into a small one or vice versa. The complex formula is 1/z, which is inversion. All pairs of complex numbers with absolute value less than 1 will be transformed outside the unit circle and the infinite complex plane will be compacted inside the unit circle! This simple formula produces the real part u=x/(xx+yy) and imaginary part v=-y/(xx+yy). Points approaching infinity will go to zero inside the unit circle!
The greatest common denominator for these numbers is 2, and any other common denominator is a divisor of 2, so one of the following: 2,1,-1,-2. Extending to complex numbers one would get the unit circle and the circle of radius 2.
Real numbers are all numbers that do not have a complex component (i = sqrt(-1)). They are used for everything in the real world from totalling up a grocery bill to calculating the area of a circle.
There are no numbers to circle!
pi in mathematics is used to determine the circumference of a circle. if you take a piece of string the length of the diameter of the cicle it would go around the circle 3.14159265358978 times (pi).
You cannot show it in general since it need not be true!
it is circle!hahax!