geometry - Find the coordinates of a point on a circle - Mathematics . . . 2 The standard circle is drawn with the 0 degree starting point at the intersection of the circle and the x-axis with a positive angle going in the counter-clockwise direction Thus, the standard textbook parameterization is: x=cos t y=sin t In your drawing you have a different scenario
trigonometry - Tips for understanding the unit circle - Mathematics . . . By "unit circle", I mean a certain conceptual framework for many important trig facts and properties, NOT a big circle drawn on a sheet of paper that has angles labeled with degree measures 30, 45, 60, 90, 120, 150, etc (and or with the corresponding radian measures), along with the exact values for the sine and cosine of these angles
Understanding the Unit Circle - Mathematics Stack Exchange See the StackExchange thread Tips for understanding the unit circle, and note the distinction I make in my answer between what students often see as the unit circle and what teachers see as the unit circle
Is this point on the unit circle? - Mathematics Stack Exchange 3 If you are studying the unit circle, then b) should be a familiar cartesian coordinate, as it equivalent to the polar coordinate $\left (1,\frac {5\pi} {4}\right)$ To determine if a) is on the unit circle, you can do as others have suggested, and check the value of $$0 65^2+ (-0 76)^2$$ If it equals $1$, it is on the unit circle
Prove that the unit circle is path-connected? For proving that the unit circle is connected, you could also say that "the only subsets of the unit circle which are both open and closed are the full circle and the empty set"