The negative y coordinates and positive x coordinates lie in the IV quadrant on the Cartesian plane
The fourth quadrant.
Coordinates that lie in the third quadrant are (-1,-1).
If measured in radians, it is in the third quadrant.
The fourth Across the quadrants sin theta and cos theta vary: sin theta: + + - - cos theta: + - - + So for sin theta < 0, it's the third or fourth quadrant And for cos theta > 0 , it's the first or fourth quadrant. So for sin theta < 0 and cos theta > 0 it's the fourth quadrant
Well, it could lie in Quadrant 1,2,3,4.
The fourth quadrant
2
The one in which the centre is in the fourth quadrant, and where the distance from the centre of the circle to the origin is greater than its radius.
Quadrant angles are the angle lies in different quadrants. The angles which lie between 0° and 90° are said to lie in the first quadrant. The angles between 90° and 180° are in the second quadrant, angles between 180° and 270° are in the third quadrant and angles between 270° and 360° are in the fourth quadrant Quadrant angles are the angle lies in different quadrants. The angles which lie between 0° and 90° are said to lie in the first quadrant. The angles between 90° and 180° are in the second quadrant, angles between 180° and 270° are in the third quadrant and angles between 270° and 360° are in the fourth quadrant
No because some points can lie in the y & x-axises. Also no because 0y and 0x don't lie in any quadrant because 0 is the origin.
The fourth quadrant.
In the 1st quadrant
-4
Coordinates that lie in the third quadrant are (-1,-1).
If measured in radians, it is in the third quadrant.
-1
The fourth Across the quadrants sin theta and cos theta vary: sin theta: + + - - cos theta: + - - + So for sin theta < 0, it's the third or fourth quadrant And for cos theta > 0 , it's the first or fourth quadrant. So for sin theta < 0 and cos theta > 0 it's the fourth quadrant