Quadrants 2 and 3 have negative X values.
The quadrants where the x-coordinates and y-coordinates have the same sign are Quadrant I and Quadrant III. In Quadrant I, both x and y are positive, while in Quadrant III, both x and y are negative.
The x-axis and y-axis divide the coordinate plane into four regions called quadrants. These quadrants are typically labeled as Quadrant I (positive x and y), Quadrant II (negative x and positive y), Quadrant III (negative x and y), and Quadrant IV (positive x and negative y). Each quadrant represents a different combination of signs for the x and y coordinates.
The Cartesian plane is divided into four quadrants. These quadrants are determined by the signs of the x and y coordinates: the first quadrant (positive x, positive y), the second quadrant (negative x, positive y), the third quadrant (negative x, negative y), and the fourth quadrant (positive x, negative y).
They have negative values
The four quadrants of a Cartesian coordinate system are named as follows: Quadrant I (top right), where both x and y coordinates are positive; Quadrant II (top left), where x is negative and y is positive; Quadrant III (bottom left), where both x and y coordinates are negative; and Quadrant IV (bottom right), where x is positive and y is negative.
The quadrants where the x-coordinates and y-coordinates have the same sign are Quadrant I and Quadrant III. In Quadrant I, both x and y are positive, while in Quadrant III, both x and y are negative.
The x-axis and y-axis divide the coordinate plane into four regions called quadrants. These quadrants are typically labeled as Quadrant I (positive x and y), Quadrant II (negative x and positive y), Quadrant III (negative x and y), and Quadrant IV (positive x and negative y). Each quadrant represents a different combination of signs for the x and y coordinates.
The x and y coordinates are both positive in Q I. They are both negative in Q III
Quadrants I and III. In Quadrant I, the values are both positive. In Quadrant III, the values are both negative.
The Cartesian plane is divided into four quadrants. These quadrants are determined by the signs of the x and y coordinates: the first quadrant (positive x, positive y), the second quadrant (negative x, positive y), the third quadrant (negative x, negative y), and the fourth quadrant (positive x, negative y).
They have negative values
The four quadrants of a Cartesian coordinate system are named as follows: Quadrant I (top right), where both x and y coordinates are positive; Quadrant II (top left), where x is negative and y is positive; Quadrant III (bottom left), where both x and y coordinates are negative; and Quadrant IV (bottom right), where x is positive and y is negative.
A point with a zero abscissa (x-coordinate) and a negative ordinate (y-coordinate) would lie in the fourth quadrant of the Cartesian coordinate system. In this quadrant, the x-coordinate is positive or zero, while the y-coordinate is negative. This means that the point would be to the right of the y-axis (positive x-direction) and below the x-axis (negative y-direction).
The x and y coordinates are equal in the first and third quadrants. In the first quadrant, both x and y are positive, resulting in coordinates like (1, 1). In the third quadrant, both x and y are negative, resulting in coordinates like (-1, -1).
Quadrants.
No the x-axis and y-axis are not in any quadrant. They go between quadrants.
I assume the question is about cos x = -1. While it is true that cos x is negative in both the second and third quadrants, it reaches the value of -1 where the two quadrants meet, not inside the quadrants. The point where they meet is on the [negative] horizontal axis and x is -pi radians.