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Chapter 5: Problem 78

Equation of a Line in Standard Write the standard form of the equation of the line that has the specified characteristics. Passes through \(\left(\frac{1}{4},-\frac{2}{3}\right)\) and \(\left(-\frac{1}{2}, \frac{1}{3}\right)\)

Short Answer

Expert verified
The standard equation of the line that passes through the points \(\left(\frac{1}{4},-\frac{2}{3}\right)\) and \(\left(-\frac{1}{2}, \frac{1}{3}\right)\) is \(2(\frac{1}{3} - y) = -2m\left(-\frac{1}{2} - x\right)\). Note that \(m\) is the slope calculated in the first step.

Step by step solution

01

Calculate the Slope

The slope of a line passing through the points \(\left(x_1, y_1\right)\) and \(\left(x_2, y_2\right)\) can be found using the formula \(m = \frac{y_2 - y_1}{x_2 - x_1}\). Let's substitute given points into the formula: \(m = \frac{\frac{1}{3}-\left(-\frac{2}{3}\right)}{-\frac{1}{2}-\frac{1}{4}}\)
02

Calculate the y-intercept

After calculating the slope, use the point-slope form of a line equation, which is \(y - y_1 = m(x - x_1)\). Substituting one of the given points (let's choose \(\left(-\frac{1}{2}, \frac{1}{3}\right)\)) and the calculated slope \(m\) into this formula, we can find the y-intercept: \(\frac{1}{3} - y = m\left(-\frac{1}{2} - x\right)\)
03

Transform the equation into standard form

Next, rewrite the equation from the slope-intercept form to standard form. The standard form of a line is \(Ax + By = C\), where A, B, and C are integers, and A and B are not both zero. Multiply both sides by -2 to clear the fractions: \(2(\frac{1}{3} - y) = -2m\left(-\frac{1}{2} - x\right)\)

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Standard Form of a Line
Understanding the standard form of a line is fundamental in algebra. It is usually expressed as
\[ Ax + By = C \]
where A, B, and C are integers, and A should be non-negative. If A is zero, the line is horizontal, and if B is zero, the line is vertical. The standard form is useful because it can easily be rearranged to yield the slope-intercept form \( y=mx+b \)
or used to find the x and y-intercepts analytically. For example, setting y to zero yields x-intercept and setting x to zero yields y-intercept. In the above exercise, converting the point-slope form to standard form involves algebraic manipulation to clear fractions and arrange the terms properly, which results in integers that correspond to A, B, and C in the standard form equation.
Calculating Slope
Slope is a measure of the rate at which a line inclines, or declines, which is crucial when graphing linear equations. It is calculated by finding the ratio of the vertical change to the horizontal change between two distinct points on the line. The slope is usually denoted as
\( m \)
and the formula to calculate it is given by:
\[ m = \frac{y_2 - y_1}{x_2 - x_1} \]
In the context of the above exercise, the slope was found using the coordinates of the two given points. Ensuring to use the precise values in the correct order when subtracting ensures an accurate calculation of the line's slope. Once the slope is known, it becomes the 'm' in the slope-intercept form of a line, which is instrumental for describing the line's direction.
Point-Slope Form
The point-slope form is an intuitive way to write the equation of a line when you know the slope and one point on the line. It's written as:
\[ y - y_1 = m(x - x_1) \]
where \((x_1, y_1)\) represents the coordinates of the known point, and \(m\) is the slope of the line. This form is extremely useful because it clearly shows the line's slope and one specific point through which it passes. From the point-slope form, you can derive both the slope-intercept form and the standard form by algebraic manipulation, which was exemplified in the exercise when substituting the calculated slope and the chosen point to express the line's equation.
Y-Intercept
The y-intercept of a line is the point where the line crosses the y-axis. It's significant because it helps to visually place the line on a coordinate grid. In algebraic terms, it's represented as the 'b' in the slope-intercept form \( y=mx+b \). To find the y-intercept from an equation, set \(x=0\) and solve for \(y\). In the step-by-step solution provided, the y-intercept was being calculated as part of the process to derive the standard form equation of the line. Identifying the y-intercept helps to understand how the line will behave in graph form and anchors the line on the graph at a specific point along the y-axis.

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Most popular questions from this chapter

Write a study sheet that will help you remember how to evaluate the six trigonometric functions of any angle \(\theta\) in standard position. Include figures and diagrams as needed.

Use a graphing utility to graph the logarithmic function. Find the domain, vertical asymptote, and \(x\) -intercept of the logarithmic function. $$f(x)=\log _{3}(x-4)$$

Finding the Domain of a Function Find the domain of the function. $$f(x)=-x^{2}-1$$

(a) Use a graphing utility to complete the table. $$\begin{array}{|l|l|l|l|l|l|} \hline \theta & 0^{\circ} & 20^{\circ} & 40^{\circ} & 60^{\circ} & 80^{\circ} \\\ \hline \sin \theta & & & & & \\ \hline \sin \left(180^{\circ}-\theta\right) & & & & & \\ \hline \end{array}$$ (b) Make a conjecture about the relationship between \(\sin \theta\) and \(\sin \left(180^{\circ}-\theta\right)\)

A 20 -meter line is used to tether a helium-filled balloon. Because of a breeze, the line makes an angle of approximately \(85^{\circ}\) with the ground. (a) Draw a right triangle that gives a visual representation of the problem. Show the known quantities of the triangle and use a variable to indicate the height of the balloon. (b) Use a trigonometric function to write an equation involving the unknown quantity. (c) What is the height of the balloon? (d) The breeze becomes stronger, and the angle the balloon makes with the ground decreases. How does this affect your triangle from part (a)? (e) Complete the table, which shows the heights (in meters) of the balloon for decreasing angle measures \(\theta\). $$\begin{array}{|l|l|l|l|l|}\hline \text { Angle, } \theta & 80^{\circ} & 70^{\circ} & 60^{\circ} & 50^{\circ} \\\\\hline \text { Height } & & & & \\\\\hline\end{array}$$ $$\begin{array}{|l|l|l|l|l|}\hline \text { Angle, } \theta & 40^{\circ} & 30^{\circ} & 20^{\circ} & 10^{\circ} \\\\\hline \text { Height } & & & & \\\\\hline\end{array}$$ (f) As the angle the balloon makes with the ground approaches \(0^{\circ},\) how does this affect the height of the balloon? Draw a right triangle to explain your reasoning.
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