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A parabola is a graph of a quadratic function and it's a smooth "U" shaped curve. Parabolas are also symmetrical which means they can be folded along a line so that all of the points on one side of the fold line coincide with the corresponding points on the other side of the fold line. The fold line, called the axis of symmetry, is the vertical line that goes through the vertex. [1] Any point on the parabola is equidistant from a fixed point (the focus) and a fixed straight line (the directrix). In order to graph a parabola, you need to find its vertex as well as several points on either side of the vertex in order to mark the path that the points travel.

Part 1
Part 1 of 2:

Graphing a Parabola

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  1. You may be given certain information prior to beginning, and knowing the terminology will help you avoid any unnecessary steps. [2] Here are the parts of the parabola that you'll need to know: [3]
    • The focus. A fixed point on the interior of the parabola that is used for the formal definition of the curve.
    • The directrix. A fixed, straight line. The parabola is the locus (series) of points in which any given point is of equal distance from the focus and the directrix . (See the diagram above.)
    • The axis of symmetry. This is a straight line that passes through the turning point ("vertex") of the parabola and is equidistant from corresponding points on the two arms of the parabola.
    • The vertex. The point where the axis of symmetry crosses the parabola is called the vertex of the parabola. If the parabola opens upward or to the right, the vertex is a minimum point of the curve. If it opens downward or to the left, the vertex is a maximum point.
  2. The general equation of a parabola is y = ax 2 + bx + c . It can also be written in the even more general form y = a(x – h)² + k , but we will focus here on the first form of the equation. [4]
    • If the coefficient a in the equation is positive, the parabola opens upward (in a vertically oriented parabola), like the letter "U", and its vertex is a minimum point. If the a is negative, the parabola opens downward and has a vertex at its maximum point. If you have trouble remembering this, think of it this way: an equation with a positive a value looks like a smile; an equation with a negative a value looks like a frown. [5]
    • Let’s say you have the following equation: y = 2x 2 -1 . This parabola will be shaped like a "U" because the a value (2) is positive.
    • If the equation has a squared y term instead of a squared x term, the parabola will be oriented horizontally and open sideways, to the right or left, like a "C" or a backward "C." For example, the parabola y 2 = x + 3 opens to the right, like a "C."
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  3. Remember that the axis of symmetry is the straight line that passes through the turning point (vertex) of the parabola. In the case of a vertical parabola (opening up or down), the axis is the same as the x coordinate of the vertex, which is the x-value of the point where the axis of symmetry crosses the parabola. To find the axis of symmetry, use this formula: x = -b/2a . [6]
    • In the above example (y = 2x² -1), a = 2 and b = 0. Now you can calculate the axis of symmetry by plugging in the numbers: x = -0 / (2)(2) = 0.
    • In this case the axis of symmetry is x = 0 (which is the y-axis of the coordinate plane).
  4. Once you know the axis of symmetry, you can plug that value in for x to get the y coordinate. These two coordinates will give you the vertex of the parabola. In this case, you would plug 0 in to 2x 2 -1 to get the y coordinate. y = 2 x 0 2 -1 = 0 -1 = -1. The vertex is (0,-1), and the parabola crosses the y-axis at -1. [7]
    • The coordinates of the vertex are sometimes known as (h, k). In this case h is 0, and k is -1. The equation for the parabola may be written in the form y = a(x – h)² + k . In this form the vertex is the point (h, k), and you don't need to do any math to find the vertex beyond interpreting the graph correctly.
  5. Create a table with particular values of x in the first column. This table will give you the coordinates you need to graph the equation. [8]
    • The middle value of x should be the axis of symmetry in the case of a "vertical" parabola.
    • You should include at least two values above and below the middle value for x in the table for the sake of symmetry.
    • In this example, put the value of the axis of symmetry (x = 0) in the middle of the table.
  6. Substitute each value of x in the equation of the parabola, and calculate the corresponding values of y. Insert these calculated values of y into the table. In this example, the values of y are calculated as follows: [9]
    • For x = -2, y is calculated as: y = (2) (-2) 2 - 1 = 8 - 1 = 7
    • For x = -1, y is calculated as: y = (2) (-1) 2 - 1 = 2 - 1 = 1
    • For x = 0, y is calculated as: y = (2) (0) 2 - 1 = 0 - 1 = -1
    • For x = 1, y is calculated as: y = (2) (1) 2 - 1 = 2 - 1 = 1
    • For x = 2, y is calculated as: y = (2) (2) 2 - 1 = 8 - 1 = 7
  7. Now that you've found at least five coordinate pairs for the parabola, you're almost ready to graph it. Based on your work, you now have the following points: (-2, 7), (-1, 1), (0, -1), (1, 1), (2, 7). Remember that the parabola is reflected (symmetrical) with respect to the axis of symmetry. This means that the y coordinates of points directly across the axis of symmetry from each other will be the same. The y-coordinates for the x-coordinates -2 and +2 are both 7; the y-coordinates for the x-coordinates -1 and +1 are both 1, and so on. [10]
  8. Each row of the table forms a coordinate pair (x, y) on the coordinate plane. Graph all points using the coordinates given in the table. [11]
    • The x-axis is horizontal; the y-axis is vertical.
    • The positive numbers on the y-axis are above the point (0, 0), and the negative numbers on the y-axis are below the point (0, 0).
    • The positive numbers on the x-axis are to the right of the point (0, 0), and the negative numbers on the x-axis are to the left of the point (0, 0).
  9. To graph the parabola, connect the points plotted in the previous step. The graph in this example will look like a U. Connect the points using slightly curved (rather than straight) lines. This will create the most accurate image of the parabola (which is at least slightly curved throughout its length). At both ends of the parabola you can draw arrows pointing away from the vertex if you like. This will indicate that the parabola continues indefinitely. [12]
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    Joseph Meyer

    Math Teacher
    Joseph Meyer is a High School Math Teacher based in Pittsburgh, Pennsylvania. He is an educator at City Charter High School, where he has been teaching for over 7 years. Joseph is also the founder of Sandbox Math, an online learning community dedicated to helping students succeed in Algebra. His site is set apart by its focus on fostering genuine comprehension through step-by-step understanding (instead of just getting the correct final answer), enabling learners to identify and overcome misunderstandings and confidently take on any test they face. He received his MA in Physics from Case Western Reserve University and his BA in Physics from Baldwin Wallace University.
    Joseph Meyer
    Math Teacher

    Develop strong graphing skills. Drawing graphs by hand will help you develop foundational graphing skills, especially in understanding scales and axes. This will build a strong base for you to use helpful online tools to visualize complex relationships, perform calculations, and prepare for standardized tests.

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Part 2
Part 2 of 2:

Shifting the Graph of a Parabola

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If you want a shortcut for shifting a parabola without having to find its vertex again and re-plotting several points on it, you'll need to understand how to read the equation of a parabola and learn to shift it vertically or horizontally. Start with the basic parabola: y = x 2 . This has its vertex at (0, 0) and opens upward. Points on it include (-1, 1), (1, 1), (-2, 4), and (2, 4). You can shift a parabola based on its equation. [13]

  1. Consider the equation y = x 2 +1. This shifts the original parabola upward 1 unit. The vertex is now (0, 1) instead of (0, 0). It will retain the exact shape of the original parabola, but every y-coordinate will be shifted upward 1 unit. So, instead of (-1, 1) and (1, 1), we plot (-1, 2) and (1, 2). [14]
  2. Take the equation y = x 2 -1. We're shifting the original parabola downward 1 unit, so that the vertex is now (0, -1) instead of (0, 0). It will still have the same shape of the original parabola, but every y-coordinate will be shifted downward 1 unit. So, instead of (-1, 1) and (1, 1), for instance, we plot (-1, 0) and (1, 0). [15]
  3. Consider the equation y = (x + 1) 2 . This shifts the original parabola one unit to the left. The vertex is now (-1, 0) instead of (0, 0). It retains the shape of the original parabola, but every x-coordinate is shifted to the left one unit. Instead of (-1, 1) and (1, 1), for instance, we plot (-2, 1) and (0, 1). [16]
  4. Consider the equation y = (x - 1) 2 . This is the original parabola shifted one unit to the right. The vertex is now (1, 0) instead of (0, 0). It retains the shape of the original parabola, but every x-coordinate will be shifted to the right one unit. Instead of (-1, 1) and (1, 1), for instance, we plot (0, 1) and (2, 1). [17]
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Community Q&A

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  • Question
    How do I actually draw the parabola?
    Elena Himmerich
    Community Answer
    Draw a smooth line through the points you've graphed. Keep in mind the U-shape of the parabola. Put arrows at the ends.
  • Question
    How do I draw a graph with the function f(x) = -4x^2 + 32?
    Donagan
    Top Answerer
    This is no different from any other parabola. Make a two-column table. Choose convenient values for x. Calculate the corresponding values for y or f(x). Plot the paired-value points on a grid. Connect the points.
  • Question
    How do I find the formula for a given parabola?
    Donagan
    Top Answerer
    It's not possible simply to view a parabola and deduce its equation. If a parabola is "given," that implies that its equation is provided.
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      About This Article

      Article Summary X

      To graph a parabola, use the coefficient a and coefficient b values from your parabolic equation in the formula x = -b ÷ 2a to solve for x, which is the first coordinate of the vertex. Next, plug x back into your equation to solve for y, which is the second coordinate of the vertex. You can then create a table by using different values for x and calculating y in your equation to get a set of coordinates. Plot these coordinates on a plane and draw your parabola! To learn how to shift the graph of your parabola, read on!

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