A straight line in Cartesian space will have at most two.
There is no fixed limit. A periodic function, such as the sine function, can have an infinite number of x-inercepts.
there can be 0, 1, 2, or infinite intercepts for a parabola 0 intercepts occurs when the parabola does not meet the 2nd line 1 occurs when the parabola intersects a line at the vertex 2 occurs when the line does not intersect at the vertex, but still intersects the parabola infinite occurs when there are 2 parabolas, that although they may be written differently, are the same on a graph.
To find the greatest integer plotted on a number line, you would look for the rightmost point marked on the line, as integers increase in value from left to right. If the number line is finite and has specific integers plotted, the greatest one will be the largest value among those points. If the number line extends infinitely, there is no greatest integer, as integers continue indefinitely.
It is a straight line that intercepts another straight line at 90 degrees
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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.
infinity
Zero
The greatest possible number of intercepts is: 2 of one axis and 1 of the other axis.The smallest possible number of intercepts is: One of each axis.
The same number as the highest power of the independent variable.
There is no fixed limit. A periodic function, such as the sine function, can have an infinite number of x-inercepts.
there can be 0, 1, 2, or infinite intercepts for a parabola 0 intercepts occurs when the parabola does not meet the 2nd line 1 occurs when the parabola intersects a line at the vertex 2 occurs when the line does not intersect at the vertex, but still intersects the parabola infinite occurs when there are 2 parabolas, that although they may be written differently, are the same on a graph.
A circle represented by an equation x^2 + y^2 = r^2 or a circular object represented by an equation Ax^2 + By^2 = r^2 has 2 y-intercepts and 2 x-intercepts.
Draw the axes. Plot the two intercepts. Draw a line connecting the two points
tangant of circle intercepts it only on one point. In real the point where tangent meets the circle and intercepts it are same
The way the number line is usually drawn, the greatest integer is the one that is to the right of all the others.
The number line