Only in a single quadrant? No. A line can be in two, or in three, different quadrants.
Third and fourth
up and another number on the zero line
Quadrant I ( + , + ) Quadrant II ( - , + ) Quadrant III ( - , - ) Quadrant IV ( + , - )
Yes, the slope of a line that passes through quadrant 3 is typically negative. In quadrant 3, both the x and y coordinates are negative, so when you calculate the slope using the formula (change in y / change in x), the result will be negative. This is because as you move from left to right along the line, the y-values decrease as the x-values also decrease, resulting in a negative slope.
The value of x will be negative in the bottom left quadrant (quadrant 3) and the top left quadrant (quadrant 2).
no
no
The 3 possible answers are Quadrant 3 and Quadrant 4 and y-axis
The slope is a negative number.
A graph is divided into 4 sections by one vertical line and one horizontal line. Each of the resultant sections is called a quadrant.
It is not possible. A quadrant extends infinitely far in two directions and so has no centre.
Y = - 2X - 3 Plot this and see that a line with a negative slope can go through quadrant III.
The slope is always positive A negative slope will always pass through quadrant II and IV
y=0 is a horizontal line on the x-axis. Therefore, it does not lie in any quadrant.
Yes, it is possible to have a rotation that starts and ends in the same quadrant. For example, if an object is rotated by an angle of 90 degrees, it will move to a different quadrant, but a rotation of 360 degrees or any multiple of 360 degrees will bring it back to the original position in the same quadrant. Therefore, a rotation can begin and end in the same quadrant depending on the angle of rotation.
Third and fourth
yes