Parabolas Centered at the Origin
Parabolas can be constructed when a plane cuts through a right circular cone. If the plane is parallel to the edge of the cone, a parabola is formed. In this section, you will explore the characteristics of parabolas and use them to construct equations of parabolas. Note that these are not the parabolas we studied before because they are not functions.
Writing Equations of Parabolas in Standard Form
In the previous examples, we used the standard form equation of a parabola to calculate the locations of its key features. We can also use the calculations in reverse to write an equation for a parabola when given its key features.
HOW TO
Given its focus and directrix, write the equation for a parabola in standard form.
- Determine whether the axis of symmetry is the \(x\)- or \(y\)-axis.
- If the given coordinates of the focus have the form \((p,0)\), then the axis of symmetry is the \(x\)-axis. Use the standard form \(y^2=4px\).
- If the given coordinates of the focus have the form \((0,p)\), then the axis of symmetry is the \(y\)-axis. Use the standard form \(x^2=4py\).
- Multiply \(4p\).
- Substitute the value from Step 2 into the equation determined in Step 1.
EXAMPLE 3
Writing the Equation of a Parabola in Standard Form Given its Focus and Directrix
What is the equation for the parabola with focus \((−\frac{1}{2},0)\) and directrix \(x=\frac{1}{2}\)?
Solution
The focus has the form \((p,0)\), so the equation will have the form \(y^2=4px\).
- Multiplying \(4p\), we have \(4p=4(−\frac{1}{2})=−2\).
- Substituting for \(4p\), we have \(y^2=4px=−2x\).
Therefore, the equation for the parabola is \(y^2=−2x\).
TRY IT #3
What is the equation for the parabola with focus \((0, \frac{7}{2})\) and directrix \(y=−\frac{7}{2}\)?