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Magazine Chapter 7: Problem 15
Find the vertex, focus, directrix, and axis of the given parabola. Graph the parabola. \(x^{2}+5 x-\frac{1}{4} y+6=0\)
Short Answer
Expert verified
Vertex: \((-\frac{5}{2}, -1)\), Focus: \((-\frac{5}{2}, 0)\), Directrix: \(y = -2\), Axis: \(x = -\frac{5}{2}\).
Step by step solution
01
Rewrite the Equation in Standard Form
The given equation is \(x^{2} + 5x - \frac{1}{4}y + 6 = 0\). First, we need to convert it into the standard form of a parabola equation, which is \((x - h)^{2} = 4p(y - k)\) for a vertical parabola. Rearrange to isolate the \(y\) terms: \(\frac{1}{4}y = x^{2} + 5x + 6\). Multiply the entire equation by \(4\) to get rid of the fraction: \(y = 4x^{2} + 20x + 24\). Next, complete the square for the \(x\) terms.
02
Complete the Square
Focus on the terms \(4x^{2} + 20x\). Factor out the \(4\): \(y = 4(x^{2} + 5x) + 24\). Now, complete the square inside the parenthesis. For \(x^{2} + 5x\), take half of \(5\), which is \(\frac{5}{2}\), and square it to get \(\left(\frac{5}{2}\right)^{2} = \frac{25}{4}\). Add and subtract \(\frac{25}{4}\) inside the parenthesis: \(y = 4(x^{2} + 5x + \frac{25}{4} - \frac{25}{4}) + 24\), which simplifies to \(y = 4((x + \frac{5}{2})^{2} - \frac{25}{4}) + 24\). Distribute the \(4\): \(y = 4(x + \frac{5}{2})^{2} - 25 + 24\) or \(y = 4(x + \frac{5}{2})^{2} - 1\).
03
Identify the Vertex
From the equation \(y = 4(x + \frac{5}{2})^{2} - 1\), the vertex form \((x - h)^{2} = 4p(y - k)\) reveals that the vertex \( (h, k) \) is \((-\frac{5}{2}, -1)\).
04
Determine the Focus and Directrix
The value of \(4p\) is \(4\), so \(p = 1\). Since the parabola opens upwards (\(4p > 0\)), the focus is \(1\) unit above the vertex. Thus, the focus is \((-\frac{5}{2}, 0)\). The directrix is \(1\) unit below the vertex at \(y = -2\).
05
Axis of Symmetry
The axis of symmetry for a parabola in the form \((x - h)^{2} = 4p(y - k)\) is \(x = h\). For this parabola, the axis of symmetry is \(x = -\frac{5}{2}\).
06
Graph the Parabola
Plot the vertex at \((-\frac{5}{2}, -1)\), the focus at \((-\frac{5}{2}, 0)\), and draw the directrix line at \(y = -2\). The axis of symmetry is \(x = -\frac{5}{2}\). Sketch the parabola opening upwards.
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Key Concepts
These are the key concepts you need to understand to accurately answer the question.
Vertex
The vertex of a parabola is a crucial point where the curve changes direction. In mathematical terms, it represents the lowest point (for a parabola that opens upwards) or the highest point (for a parabola that opens downwards). In the case of our exercise, we have determined the vertex from the standard form equation:
Grasping the concept of the vertex allows you to predict the shape and direction in which the parabola opens.
- The parabola is expressed as \( y = 4(x + \frac{5}{2})^{2} - 1 \).
- This is written in the form \((x - h)^{2} = 4p(y - k)\), where \((h, k)\) is the vertex.
- Therefore, the vertex is located at the coordinates \((-\frac{5}{2}, -1)\).
Grasping the concept of the vertex allows you to predict the shape and direction in which the parabola opens.
Focus
The focus of a parabola is a special point inside the curve. It plays a significant role in defining the shape and position of the parabola. This point is always located along the axis of symmetry and acts as a key characteristic that, together with the directrix, defines the parabola. Let's go through its characteristics:
- The distance from the vertex to the focus, denoted by \(p\), was determined to be 1 in our solution.
- This means the focus is 1 unit in the direction the parabola opens from the vertex.
- Since our parabola opens upwards, the focus lies 1 unit above the vertex, resulting in a focus at \((-\frac{5}{2}, 0)\).
Directrix
The directrix of a parabola is a fixed line used to define the curve in conjunction with the focus. Together with the vertex and focus, it assists in shaping the parabola and giving it binary balance:
- The directrix is parallel to the axis of symmetry and located \(-p\) units in the opposite direction to the opening of the parabola from the vertex.
- In this particular exercise, since \(p = 1\), the directrix is 1 unit below the vertex as the parabola opens upwards.
- This placement of the directrix makes it at \(y = -2\).
Axis of Symmetry
An essential feature of any parabola is its axis of symmetry. This is a vertical line that passes through the vertex and divides the parabola into two mirror-image halves. It helps in understanding and plotting the equation with greater accuracy. For our specific parabola:
- The axis of symmetry can be found directly from the vertex form of the equation \((x - h)^{2} = 4p(y - k)\).
- It essentially runs through the vertex coordinate \((h, k)\).
- As a result, for our equation, the axis of symmetry is \(x = -\frac{5}{2}\).
