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.
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.
all multiples of pi. pi, 2 pi, - pi, -2 pi and so on...
Can you Graph: x4 +10x2 + 33x2 + 38x +8 Find: All X-Intercepts, Y-Intercept, Turning points
YES, all linear equations have x-intercepts. because of the x, y has to be there 2!
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.
all multiples of pi. pi, 2 pi, - pi, -2 pi and so on...
The x coordinate for all y intercepts is 0, just as the y coordinate for all x intercepts is 0.
Make a circle, put all the numbers including prime and composite numbers. Then everything outside that circle is your answer.
Can you Graph: x4 +10x2 + 33x2 + 38x +8 Find: All X-Intercepts, Y-Intercept, Turning points
-7,-25
YES, all linear equations have x-intercepts. because of the x, y has to be there 2!
To count how many different central angles a circle has, count how many different numbers there are between zero and 360. Include all of the possible fractions. You should discover that the number is very big.
The answer depends on how many numbers are on the circle and if they are all represented by the same areas.
For example, 0 is an integer and whole number that is rational
0.
take all the numbers and add them up.