A curved line can pass through (not threw) all four quadrants. The maximim for a straight line is three.
I would say from an educated guess that it is 0. A straight line could avoid all quadrants if it were placed on the origins of the x and y axis.
Quadrants.. I, II, III and IV starting in the upper right hand corner and going counter clockwise I, II, III, IV. it looks a little like this if the slashes were the y axis and there was a line in the middle of the two, II/I III/IV
II and IV
In the context of a circle or the coordinate plane, quadrants are the four quarters defined either by two mutually perpendicular radii or the coordinate axes.
Only in a single quadrant? No. A line can be in two, or in three, different quadrants.
A curved line can pass through (not threw) all four quadrants. The maximim for a straight line is three.
The point (-1,0) lies on the boundary line between Quadrants II and III .
Quadrants I and III, numbered from I at upper right (+, +) left and moving clockwise. The line passes through the origin (0,0).
I would say from an educated guess that it is 0. A straight line could avoid all quadrants if it were placed on the origins of the x and y axis.
A coordinate plane has two axes and four quadrants. The horizontal number line is called the x-axis and the vertical line is called the y-axis.
A point with those properties is on the negative-y axis . . . the boundary line between Quadrants III and IV.
I,ii
Quadrants.. I, II, III and IV starting in the upper right hand corner and going counter clockwise I, II, III, IV. it looks a little like this if the slashes were the y axis and there was a line in the middle of the two, II/I III/IV
It will pass through the first (when x is positive) and third quadrants (when x is negative, y will also be negative).
II and IV
In the context of a circle or the coordinate plane, quadrants are the four quarters defined either by two mutually perpendicular radii or the coordinate axes.