Precalculus 2

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Linear functions may be graphed by plotting points or by using the y-intercept and slope. See Example 1 and Example 2. Graphs of linear functions may be transformed by using shifts up, down, left, or right, as well as through stretches, compressions, and reflections. See Example 3. The y-intercept and slope of a line may be used to write the equation of a line. The x-intercept is the point at which the graph of a linear function crosses the x-axis. See Example 4 and Example 5. Horizontal lines are written in the form, f(x)=b.f(x)=b. See Example 6. Vertical lines are written in the form, x=b.x=b. See Example 7. Parallel lines have the same slope. Perpendicular lines have negative reciprocal slopes, assuming neither is vertical. See Example 8. A line parallel to another line, passing through a given point, may be found by substituting the slope value of the line and the x- and y-values of the given point into the equation, f(x)=mx+b,f(x)=mx+b, and using the bb that results. Similarly, the point-slope form of an equation can also be used. See Example 9. A line perpendicular to another line, passing through a given point, may be found in the same manner, with the exception of using the negative reciprocal slope. See Example 10 and Example 11. A system of linear equations may be solved setting the two equations equal to one another and solving for x.x. The y-value may be found by evaluating either one of the original equations using this x-value. A system of linear equations may also be solved by finding the point of intersection on a graph. See Example 12 and Example 13.

Linear functions may be graphed by plotting points or by using the y-intercept and slope. See Example 1 and Example 2. Graphs of linear functions may be transformed by using shifts up, down, left, or right, as well as through stretches, compressions, and reflections. See Example 3. The y-intercept and slope of a line may be used to write the equation of a line. The x-intercept is the point at which the graph of a linear function crosses the x-axis. See Example 4 and Example 5. Horizontal lines are written in the form, f(x)=b.f(x)=b. See Example 6. Vertical lines are written in the form, x=b.x=b. See Example 7. Parallel lines have the same slope. Perpendicular lines have negative reciprocal slopes, assuming neither is vertical. See Example 8. A line parallel to another line, passing through a given point, may be found by substituting the slope value of the line and the x- and y-values of the given point into the equation, f(x)=mx+b,f(x)=mx+b, and using the bb that results. Similarly, the point-slope form of an equation can also be used. See Example 9. A line perpendicular to another line, passing through a given point, may be found in the same manner, with the exception of using the negative reciprocal slope. See Example 10 and Example 11. A system of linear equations may be solved setting the two equations equal to one another and solving for x.x. The y-value may be found by evaluating either one of the original equations using this x-value. A system of linear equations may also be solved by finding the point of intersection on a graph. See Example 12 and Example 13.

Scatter plots show the relationship between two sets of data. See Example 1. Scatter plots may represent linear or non-linear models. The line of best fit may be estimated or calculated, using a calculator or statistical software. See Example 2. Interpolation can be used to predict values inside the domain and range of the data, whereas extrapolation can be used to predict values outside the domain and range of the data. See Example 3. The correlation coefficient, r,r, indicates the degree of linear relationship between data. See Example 5. A regression line best fits the data. See Example 6. The least squares regression line is found by minimizing the squares of the distances of points from a line passing through the data and may be used to make predictions regarding either of the variables. See Example 4.

Scatter plots show the relationship between two sets of data. See Example 1. Scatter plots may represent linear or non-linear models. The line of best fit may be estimated or calculated, using a calculator or statistical software. See Example 2. Interpolation can be used to predict values inside the domain and range of the data, whereas extrapolation can be used to predict values outside the domain and range of the data. See Example 3. The correlation coefficient, r,r, indicates the degree of linear relationship between data. See Example 5. A regression line best fits the data. See Example 6. The least squares regression line is found by minimizing the squares of the distances of points from a line passing through the data and may be used to make predictions regarding either of the variables. See Example 4.

The ordered pairs given by a linear function represent points on a line. Linear functions can be represented in words, function notation, tabular form, and graphical form. See Example 1. The rate of change of a linear function is also known as the slope. An equation in the slope-intercept form of a line includes the slope and the initial value of the function. The initial value, or y-intercept, is the output value when the input of a linear function is zero. It is the y-value of the point at which the line crosses the y-axis. An increasing linear function results in a graph that slants upward from left to right and has a positive slope. A decreasing linear function results in a graph that slants downward from left to right and has a negative slope. A constant linear function results in a graph that is a horizontal line. Analyzing the slope within the context of a problem indicates whether a linear function is increasing, decreasing, or constant. See Example 2. The slope of a linear function can be calculated by dividing the difference between y-values by the difference in corresponding x-values of any two points on the line. See Example 3 and Example 4. The slope and initial value can be determined given a graph or any two points on the line. One type of function notation is the slope-intercept form of an equation. The point-slope form is useful for finding a linear equation when given the slope of a line and one point. See Example 5. The point-slope form is also convenient for finding a linear equation when given two points through which a line passes. See Example 6. The equation for a linear function can be written if the slope mm and initial value bb are known. See Example 7, Example 8, and Example 9. A linear function can be used to solve real-world problems. See Example 10 and Example 11. A linear function can be written from tabular form. See Example 12.

The ordered pairs given by a linear function represent points on a line. Linear functions can be represented in words, function notation, tabular form, and graphical form. See Example 1. The rate of change of a linear function is also known as the slope. An equation in the slope-intercept form of a line includes the slope and the initial value of the function. The initial value, or y-intercept, is the output value when the input of a linear function is zero. It is the y-value of the point at which the line crosses the y-axis. An increasing linear function results in a graph that slants upward from left to right and has a positive slope. A decreasing linear function results in a graph that slants downward from left to right and has a negative slope. A constant linear function results in a graph that is a horizontal line. Analyzing the slope within the context of a problem indicates whether a linear function is increasing, decreasing, or constant. See Example 2. The slope of a linear function can be calculated by dividing the difference between y-values by the difference in corresponding x-values of any two points on the line. See Example 3 and Example 4. The slope and initial value can be determined given a graph or any two points on the line. One type of function notation is the slope-intercept form of an equation. The point-slope form is useful for finding a linear equation when given the slope of a line and one point. See Example 5. The point-slope form is also convenient for finding a linear equation when given two points through which a line passes. See Example 6. The equation for a linear function can be written if the slope mm and initial value bb are known. See Example 7, Example 8, and Example 9. A linear function can be used to solve real-world problems. See Example 10 and Example 11. A linear function can be written from tabular form. See Example 12.

We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. See Example 1. Draw a diagram, where appropriate. See Example 2 and Example 3. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0,y=0, which is setting the expression mx+bmx+b equal to 0. The point of intersection of a system of linear equations is the point where the x- and y-values are the same. See Example 4. A graph of the system may be used to identify the points where one line falls below (or above) the other line.

We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. See Example 1. Draw a diagram, where appropriate. See Example 2 and Example 3. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0,y=0, which is setting the expression mx+bmx+b equal to 0. The point of intersection of a system of linear equations is the point where the x- and y-values are the same. See Example 4. A graph of the system may be used to identify the points where one line falls below (or above) the other line.

linear function

a function with a constant rate of change that is a polynomial of degree 1, and whose graph is a straight line

decreasing linear function

a function with a negative slope: If f(x)=mx+b,thenm<0.

increasing linear function

a function with a positive slope: If f(x)=mx+b,thenm>0.

horizontal line

a line defined by f(x)=b,f(x)=b, where bb is a real number. The slope of a horizontal line is 0.

vertical line

a line defined by x=a,x=a, where aa is a real number. The slope of a vertical line is undefined.

least squares regression

a statistical technique for fitting a line to data in a way that minimizes the differences between the line and data values

correlation coefficient

a value, r,r, between -1 and 1 that indicates the degree of linear correlation of variables, or how closely a regression line fits a data set.

interpolation

predicting a value inside the domain and range of the data

extrapolation

predicting a value outside the domain and range of the data

slope-intercept form

the equation for a line that represents a linear function in the form f(x)=mx+b

point-slope form

the equation for a line that represents a linear function of the form y−y1=m(x−x1)y−y1=m(x−x1)

x-intercept

the point on the graph of a linear function when the output value is 0; the point at which the graph crosses the horizontal axis

slope

the ratio of the change in output values to the change in input values; a measure of the steepness of a line

y-intercept

the value of a function when the input value is zero; also known as initial value

perpendicular lines

two lines that intersect at right angles and have slopes that are negative reciprocals of each other

parallel lines

two or more lines with the same slope

model breakdown

when a model no longer applies after a certain point


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