Table of contents

0. Review of Algebra4h 18m

Algebraic Expressions
36m

Exponents
32m

Polynomials Intro
19m

Multiplying Polynomials
36m

Factoring Polynomials
1h 2m

Radical Expressions
15m

Simplifying Radical Expressions
35m

Rationalize Denominator
15m

Rational Exponents
4m

1. Equations & Inequalities3h 18m

Linear Equations
31m

Rational Equations
21m

The Imaginary Unit
6m

Powers of i
11m

Complex Numbers
36m

Intro to Quadratic Equations
18m

The Square Root Property
11m

Completing the Square
12m

The Quadratic Formula
18m

Choosing a Method to Solve Quadratics
9m

Linear Inequalities
20m

2. Graphs of Equations1h 43m

Graphs and Coordinates
7m

Two-Variable Equations
23m

Lines
1h 12m

3. Functions2h 17m

Intro to Functions & Their Graphs
35m

Common Functions
5m

Transformations
45m

Function Operations
21m

Function Composition
29m

4. Polynomial Functions1h 44m

Quadratic Functions
39m

Understanding Polynomial Functions
34m

Graphing Polynomial Functions
30m

Dividing Polynomials

Zeros of Polynomial Functions

5. Rational Functions1h 23m

Introduction to Rational Functions
9m

Asymptotes
35m

Graphing Rational Functions
38m

6. Exponential & Logarithmic Functions2h 28m

Introduction to Exponential Functions
9m

Graphing Exponential Functions
25m

The Number e
8m

Introduction to Logarithms
22m

Graphing Logarithmic Functions
18m

Properties of Logarithms
27m

Solving Exponential and Logarithmic Equations
35m

7. Systems of Equations & Matrices4h 5m

Two Variable Systems of Linear Equations
1h 7m

Introduction to Matrices
1h 11m

Determinants and Cramer's Rule
1h 3m

Graphing Systems of Inequalities
42m

8. Conic Sections2h 23m

Introduction to Conic Sections
5m

Circles
15m

Ellipses: Standard Form
33m

Parabolas
36m

Hyperbolas at the Origin
40m

Hyperbolas NOT at the Origin
12m

9. Sequences, Series, & Induction1h 22m

Sequences
40m

Arithmetic Sequences
25m

Geometric Sequences
15m

10. Combinatorics & Probability1h 45m

Factorials
11m

Combinatorics
46m

Probability
47m

3. Functions

Transformations

College Algebra

3. Functions

Transformations

Previous problemNext problem

1:33 minutes

Problem 9

Textbook Question

Use the graph of y = f(x) to graph each function g.

g(x) = -f(x) +3

Verified step by step guidance

Step 1: Analyze the given graph of y = f(x). The graph is a horizontal line segment from (1, -3) to (4, -3). This means that f(x) = -3 for all x in the interval [1, 4].

Step 2: Understand the transformation g(x) = -f(x) + 3. The transformation involves two steps: (a) Negate the values of f(x), which means flipping the graph vertically, and (b) Add 3 to the result, which shifts the graph upward by 3 units.

Step 3: Apply the negation transformation. Since f(x) = -3, negating it gives -f(x) = 3. The graph is now a horizontal line segment at y = 3 for x in [1, 4].

Step 4: Apply the vertical shift transformation. Adding 3 to -f(x) gives g(x) = 3 + 3 = 6. The graph is now a horizontal line segment at y = 6 for x in [1, 4].

Step 5: Plot the transformed graph of g(x). The new graph is a horizontal line segment from (1, 6) to (4, 6).

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Function Transformation

Function transformation refers to the changes made to the graph of a function based on modifications to its equation. In this case, the function g(x) = -f(x) + 3 involves a vertical shift and a reflection. The negative sign indicates a reflection over the x-axis, while the '+3' shifts the graph upward by three units.

Reflection Over the X-Axis

Reflecting a function over the x-axis means that for every point (x, y) on the original graph, the corresponding point on the reflected graph will be (x, -y). This transformation changes the sign of the output values, effectively flipping the graph upside down. For the function g(x) = -f(x), this reflection alters the horizontal line segment of f(x) from y = -3 to y = 3.

Vertical Shift

A vertical shift occurs when a constant is added to or subtracted from a function's output. In the function g(x) = -f(x) + 3, the '+3' indicates that the entire graph of -f(x) is moved up by three units. This means that after reflecting the original function, the new graph will be positioned higher on the y-axis, resulting in a horizontal line segment at y = 0.

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