The question does not contain an equation but an expression. An equation can have intercepts, an expression cannot.
The answer will depend on what THESE intercepts are!
A circle can have 0, 1, or 2 x-intercepts and 0,1, or 2 y-intercepts, bringing the total to 0, 1, 2, 3, or 4 intercepts.
The cosecant function, being defined as 1÷sin(x), has no x intercepts. It has y intercepts at ±∞. (infinity and -infinity)
Slope: -1 intercepts: (0,1000),(1000,0)
A circle can have a maximum of two intercepts with a straight line. This occurs when the line intersects the circle at two distinct points. If the line is tangent to the circle, it will have one intercept, and if it does not intersect at all, it will have zero intercepts.
The answer will depend on what THESE intercepts are!
A circle can have 0, 1, or 2 x-intercepts and 0,1, or 2 y-intercepts, bringing the total to 0, 1, 2, 3, or 4 intercepts.
tangant of circle intercepts it only on one point. In real the point where tangent meets the circle and intercepts it are same
The x coordinate for all y intercepts is 0, just as the y coordinate for all x intercepts is 0.
The vertex must be half way between the two x intercepts
The cosecant function, being defined as 1÷sin(x), has no x intercepts. It has y intercepts at ±∞. (infinity and -infinity)
well intercepts could bedre
well intercepts could bedre
There is no limit to the number of y-intercepts a line can have. The axis itself is a line and it intercepts itself an infinite number of times.
Yes. A quadratic function can have 0, 1, or 2 x-intercepts, and 0, 1, or 2 y-intercepts.
It measures half the sum of the arcs it intercepts.
Well, not always. An obtuse angle is one that is greater than 90 degrees. Any inscribed angle that intercepts a major arc can be any measurement in which it intercepts.