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Concept: Characteristics of Exponential Functions

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Presentation on theme: "Concept: Characteristics of Exponential Functions"β€” Presentation transcript:

1 Lesson 3.6b Graphing & Identifying Key Features of Exponential Functions
Concept: Characteristics of Exponential Functions Lesson EQ: How do you graph, interpret, and apply the key features of an exponential function? (Standard F.IF.4,5,7) Vocabulary: Domain, Range, & End Behavior

2 Exponential Functions
Recall General form 𝒇 𝒙 =𝒂 𝒃 𝒙 +π’Œ a = initial value that determines the shape a > 1 stretch; 0 < a < 1 shrink; -a = reflection b = growth if the value is > 1 b = decay if the value is between 0 and 1 k = horizontal asymptote & vertical shift

3 Guided Practice: Example 1, continued
Complete the table of values to create a graph of the function. 𝑓 π‘₯ = 2 π‘₯ x f(x) –2 –1 1 2 3.4.2: Graphing Exponential Functions

4 Domain The collection of all x-values (inputs). For exponential functions the domain will always be all real numbers ℝ. Example: 𝒇 𝒙 = 𝟐 𝒙 Domain = all real numbers because any number can be used as x.

5 Range The collection of all y-values (outputs). +a: Range is all numbers > asymptote. -a: Range is all numbers < asymptote. Example: 𝒇 𝒙 = 𝟐 𝒙 Domain = all numbers > asymptote. y > 0

6 What happens at the ends of the graph.
End Behavior What happens at the ends of the graph. Exponential functions have 2 end behaviors. One towards + or - infinity and one towards the horizontal asymptote. Example: 𝒇 𝒙 = 𝟐 𝒙 Left: As x β†’ -∞, y β†’ 0 Right: As x β†’ +∞, y β†’ +∞

7 Guided Practice: Example 2, continued
Complete the table of values to create a graph of the function. 𝑓 π‘₯ = π‘₯ x f(x) –2 –1 1 2 3.4.2: Graphing Exponential Functions

8 Example 2: 𝑓(π‘₯) = 1 2 π‘₯ Recall Not a reflection Decay
Horizontal Asymptote: y = 0 y-intercept: (0, 1) Domain = _____________ Range = all numbers ____ asymptote y ____ _____ End behavior: Left: As x β†’ -∞, y β†’ ___ Right: As x β†’ +∞, y β†’ ___

9 Guided Practice: Example 3, continued
Complete the table of values to create a graph of the function. 𝑓 π‘₯ = 3 π‘₯ +1 x f(x) –2 –1 1 2 3.4.2: Graphing Exponential Functions

10 Example 3: 𝑓 π‘₯ = 3 π‘₯ +1 Recall Not a reflection Growth
Horizontal Asymptote: y = 1 y-intercept: (0, 2) Domain = _____________ Range = all numbers ____ asymptote y ____ _____ End behavior: Left: As x β†’ -∞, y β†’ ___ Right: As x β†’ +∞, y β†’ ___

11 Guided Practice: Example 4, continued
Complete the table of values to create a graph of the function. 𝑓 π‘₯ =βˆ’1( 2) π‘₯ +3 x f(x) –2 –1 1 2 3.4.2: Graphing Exponential Functions

12 Example 4: 𝑓 π‘₯ =βˆ’1( 2) π‘₯ +3 Recall Reflection Decay
Horizontal Asymptote: y = 3 y-intercept: (0, 2) Domain = _____________ Range = all numbers ____ asymptote y ____ _____ End behavior: Left: As x β†’ -∞, y β†’ ___ Right: As x β†’ +∞, y β†’ ___

13 Summarizing Strategy: Example for Absent friend
Your absent friend needs you to show them an example of what they missed. Choose 3 of the following 5 features to identify for this exponential function: f(x) = 3x – 2 Asymptote y-intercept Domain Range End Behavior

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