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)
so you can find the solution for the x-values. the x-intercepts are when the graph crosses the x-axis
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 vertex must be half way between the two x 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 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.