Examples of slope-intercept form in the following topics:
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- One of the most common representations for a line is with the slope-intercept form.
- Writing an equation in slope-intercept form is valuable since from the form it is easy to identify the slope and $y$-intercept.
- Simply substitute the values into the slope-intercept form to obtain:
- Let's write the equation $3x+2y=-4$ in slope-intercept form and identify the slope and $y$-intercept.
- Now that the equation is in slope-intercept form, we see that the slope $m=-\frac{3}{2}$, and the $y$-intercept $b=-2$.
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- Example: Write the equation of a line in point-slope form, given a point $(2,1)$ and slope $-4$, and convert to slope-intercept form
- To switch this equation into slope-intercept form, solve the equation for $y$:
- Example: Write the equation of a line in point-slope form, given point $(-3,6)$ and point $(1,2)$, and convert to slope-intercept form
- Graph of the line $y-1=-4(x-2)$, through the point $(2,1)$ with slope of $-4$, as well as the slope-intercept form, $y=-4x+9$.
- Use point-slope form to find the equation of a line passing through two points and verify that it is equivalent to the slope-intercept form of the equation
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- Before successfully solving a system graphically, one must understand how to graph equations written in standard form, or $Ax+By=C$.
- To do this, you need to convert the equations to slope-intercept form, or $y=mx+b$, where m = slope and b = y-intercept.
- The best way to convert an equation to slope-intercept form is to first isolate the y variable and then divide the right side by B, as shown below.
- Now $\displaystyle -\frac{A}{B}$ is the slope m, and $\displaystyle \frac{C}{B}$ is the y-intercept b.
- Once you have converted the equations into slope-intercept form, you can graph the equations.
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- Recall that the slope-intercept form of an equation is: $y=mx+b$ and the point-slope form of an equation is: $y-y_{1}=m(x-x_{1})$, both contain information about the slope, namely the constant $m$.
- Example: Write an equation of the line (in slope-intercept form) that is parallel to the line $y=-2x+4$ and passes through the point $(-1,1)$
- Start with the equation for slope-intercept form and then substitute the values for the slope and the point, and solve for $b$: $y=mx+b$.
- Example: Write an equation of the line (in slope-intercept form) that is perpendicular to the line $y=\frac{1}{4}x-3$ and passes through the point $(2,4)$
- Again, start with the slope-intercept form and substitute the values, except the value for the slope will be the negative reciprocal.
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- A linear equation written in standard form makes it easy to calculate the zero, or $x$-intercept, of the equation.
- For example, consider an equation in slope-intercept form: $y = -12x +5$.
- We know that the y-intercept of a linear equation can easily be found by putting the equation in slope-intercept form.
- However, the zero, or $x$-intercept of a linear equation can easily be found by putting it into standard form.
- Note that the $y$-intercept and slope can also be calculated using the coefficients and constant of the standard form equation.
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- Linear functions are algebraic equations whose graphs are straight lines with unique values for their slope and y-intercepts.
- For example, a common equation, $y=mx+b$, (namely the slope-intercept form, which we will learn more about later) is a linear function because it meets both criteria with $x$ and $y$ as variables and $m$ and $b$ as constants.
- Vertical lines have an undefined slope, and cannot be represented in the form $y=mx+b$, but instead as an equation of the form $x=c$ for a constant $c$, because the vertical line intersects a value on the $x$-axis, $c$.
- Horizontal lines have a slope of zero and is represented by the form, $y=b$, where $b$ is the $y$-intercept.
- The blue line has a positive slope of $\frac{1}{2}$ and a $y$-intercept of $-3$; the red line has a negative slope of $-1$ and a $y$-intercept of $5$.
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- Slope is often denoted by the letter $m$.
- Recall the slop-intercept form of a line, $y = mx + b$.
- Putting the equation of a line into this form gives you the slope ($m$) of a line, and its $y$-intercept ($b$).
- In other words, a line with a slope of $-9$ is steeper than a line with a slope of $7$.
- We can see the slope is decreasing, so be sure to look for a negative slope.
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- A common form of a linear equation in the two variables $x$ and $y$ is:
- Where $m$ (slope) and $b$ (intercept) designate constants.
- The origin of the name "linear" comes from the fact that the set of solutions of such an equation forms a straight line in the plane.
- In this particular equation, the constant $m$ determines the slope or gradient of that line, and the constant term $b$ determines the point at which the line crosses the $y$-axis, otherwise known as the $y$-intercept.
- Three lines — the red and blue lines have the same slope, while the red and green ones have same y-intercept.
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- In the regression line equation the constant $m$ is the slope of the line and $b$ is the $y$-intercept.
- Regression analysis is the process of building a model of the relationship between variables in the form of mathematical equations.
- The constant $$$m$ is slope of the line and $b$ is the $y$-intercept -- the value where the line cross the $y$ axis.
- An equation where y is the dependent variable, x is the independent variable, m is the slope, and b is the intercept.
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- The concepts of slope and intercept are essential to understand in the context of graphing data.
- The slope or gradient of a line describes its steepness, incline, or grade.
- A higher slope value indicates a steeper incline.
- It also acts as a reference point for slopes and some graphs.
- Functions which are undefined at $x=0$ have no $y$-intercept.