Welcome! Section 3: Introduction to Functions Topic 6, 8-11 Topics 6

Welcome! Section 3: Introduction to Functions Topic 6, 8-11 Topics 6
Grab a set of interactive notes Homework: Section 3 Study Guide Study for Exam Thursday B Day 11/17 Topics 8-11

Section 3: Introduction to Functions Topic 6 - 8
Students will: Explore the closure property with polynomials and discover polynomials are closed under the same operations as integers. Explore solutions and 𝑦 intercepts of functions, when functions are increasing and decreasing, and relative maximums and minimums.

The Counting Numbers {1, 2, 3, ...}
Section 3: Introduction to Functions Topic 1 - 2 Section 3: Introduction to Functions Topic 6 - 8 Let’s Review the world of numbers and general order of discovery. The simplest idea of a number is something to count with. The Counting Numbers {1, 2, 3, ...}

Zero The idea of zero, though natural to us now, was not natural to early humans ... if there is nothing to count, how can you count it? Whole Numbers {0, 1, 2, 3, ...}

Negative Numbers We can count forward and we can count backwards! How? Temperatures can be less than zero, we can owe money…so negative numbers exist. Integers: {..., -3, -2, -1, 0, 1, 2, 3, ...}

{p/q : p and q are integers, q is not zero}
Section 3: Introduction to Functions Topic 1 - 2 Section 3: Introduction to Functions Topic 6 - 8 Fractions  Ratios If you have an apple and you want to share it… You took 1 and divided it by…. Rational Numbers: {p/q : p and q are integers, q is not zero}

Numbers that can’t be fractions
Section 3: Introduction to Functions Topic 1 - 2 Section 3: Introduction to Functions Topic 6 - 8 Numbers that can’t be fractions Like the square root of 2 (√2) and Pi (π). They are useful to find diagonal distances across squares; great in calculations of circles, π So we need and have Irrational Numbers

Real Numbers Section 3: Introduction to Functions Topic 1 - 2
Real Numbers include: the rational numbers, and the irrational numbers

Closure Property: Section 3: Introduction to Functions Topic 1 - 2

Closure Property: Section 3: Introduction to Functions Topic 1 - 2
Sets A set is a collection of things (usually numbers). Examples: Set of even numbers: {..., -4,-2, 0, 2, 4, ...} Set of odd numbers: {..., -3, -1, 1, 3, ...} Set of prime numbers: {2, 3, 5, 7, 11, 13, 17, ...}

Is the set of odd numbers closed under
Section 3: Introduction to Functions Topic 1 - 2 Section 3: Introduction to Functions Topic 6 - 8 Let’s look at a set of odd numbers: Example: Odd numbers {..., -3, -1, 1, 3, ...} Is the set of odd numbers closed under the operations of + − × ÷ ?

Odd Numbers: Section 3: Introduction to Functions Topic 1 - 2
Adding? 3 + 7 = Subtracting? 11 − 3 = Multiplying? 5 × 7 = Dividing? 33/3 = /5 =

Worksheet Practice Section 3: Introduction to Functions Topic 1 - 2

The y-intercept is the y-coordinate of the point where the graph intersects the y-axis. The x-coordinate of this point is always 0. The x-intercept is the x-coordinate of the point where the graph intersects the x-axis. The y-coordinate of this point is always 0.

Example 1A: Finding Intercepts
Section 3: Introduction to Functions Topic 6 - 8 Example 1A: Finding Intercepts Find the x- and y-intercepts. The graph intersects the y-axis at (0, 1). The y-intercept is 1. The graph intersects the x-axis at (–2, 0). The x-intercept is –2.

Check It Out! Example 1a Find the x- and y-intercepts. The graph intersects the y-axis at (0, 3). The y-intercept is 3. The graph intersects the x-axis at (–2, 0). The x-intercept is –2.

Example 1B: Finding Intercepts
Section 3: Introduction to Functions Topic 6 - 8 Example 1B: Finding Intercepts Find the x- and y-intercepts. 5x – 2y = 10 To find the x-intercept, replace y with 0 and solve for x. To find the y-intercept, replace x with 0 and solve for y. 5x – 2y = 10 5x – 2(0) = 10 5x – 2y = 10 5(0) – 2y = 10 5x – 0 = 10 5x = 10 0 – 2y = 10 – 2y = 10 x = 2 The x-intercept is 2. y = –5 The y-intercept is –5.

Check It Out! Example 1a Find the x- and y-intercepts. The graph intersects the y-axis at (0, 3). The y-intercept is 3. The graph intersects the x-axis at (–2, 0). The x-intercept is –2.

Check It Out! Example 1b Find the x- and y-intercepts. –3x + 5y = 30 To find the x-intercept, replace y with 0 and solve for x. To find the y-intercept, replace x with 0 and solve for y. –3x + 5y = 30 –3x + 5(0) = 30 –3x + 5y = 30 –3(0) + 5y = 30 –3x – 0 = 30 –3x = 30 0 + 5y = 30 5y = 30 x = –10 The x-intercept is –10. y = 6 The y-intercept is 6.

Check It Out! Example 1c Find the x- and y-intercepts. 4x + 2y = 16 To find the x-intercept, replace y with 0 and solve for x. To find the y-intercept, replace x with 0 and solve for y. 4x + 2y = 16 4x + 2(0) = 16 4x + 2y = 16 4(0) + 2y = 16 4x + 0 = 16 4x = 16 0 + 2y = 16 2y = 16 x = 4 The x-intercept is 4. y = 8 The y-intercept is 8.

Remember, to graph a linear function, you need to plot only two ordered pairs. It is often simplest to find the ordered pairs that contain the intercepts. Helpful Hint You can use a third point to check your line. Either choose a point from your graph and check it in the equation, or use the equation to generate a point and check that it is on your graph.

Example 3A: Graphing Linear Equations by Using Intercepts
Section 3: Introduction to Functions Topic 6 - 8 Example 3A: Graphing Linear Equations by Using Intercepts Use intercepts to graph the line described by the equation. 3x – 7y = 21 Step 1 Find the intercepts. y-intercept: x-intercept: 3x – 7y = 21 3x – 7(0) = 21 3x – 7y = 21 3(0) – 7y = 21 3x = 21 –7y = 21 x = 7 y = –3

Example 3A Continued Use intercepts to graph the line described by the equation. 3x – 7y = 21 Step 2 Graph the line. Plot (7, 0) and (0, –3). x Connect with a straight line.

Section 3: Introduction to Functions Topic 9-11
Common Functions

Increasing Functions A function is "increasing" when the y value increases as the x-value increases, like this:

No Slope  Zero slope

Undefined

Local Maximum and Minimum Functions can have “hills and valleys": places where they reach a minimum or maximum value. It may not be the minimum or maximum for the whole function, but relatively it is.

Function Transformations
Section 3: Introduction to Functions Topic 9-11 Function Transformations Let us start with a function, in this case it is f(x) = x2, but it could be anything: add to y, go high F(x)

Function Transformations
Section 3: Introduction to Functions Topic 9-11 Function Transformations Let us start with a function, in this case it is f(x) = x2, but it could be anything: add to x, go left F(x) F(x)

Function Transformations An easy way to remember what happens to the graph when we add a constant: add to y, go high add to x, go left f(x) + C C > 0 moves it up C < 0 moves it down f(x + C) C > 0 moves it left C < 0 moves it right

Piecewise Functions A Function Can be in Pieces We can create functions that behave differently based on the input (x) value. A function made up of 3 pieces

Example: when x is less than 2, it gives x2, when x is exactly 2 it gives 6 when x is more than 2 and less than or equal to 6 it gives the line 10-x It looks like this: (a solid dot means "including", an open dot means "not including")

This is how we write it: X Function Y -4 16 -2 4 1 2 6 3 7

Homework Section 3 Study Guide

Welcome! Section 3: Introduction to Functions Topic 6, 8-11 Topics 6

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Welcome! Section 3: Introduction to Functions Topic 6, 8-11 Topics 6

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