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Exponential Functions Quadratic Functions Linear Functions

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Presentation on theme: "Exponential Functions Quadratic Functions Linear Functions"— Presentation transcript:

1 Exponential Functions Quadratic Functions Linear Functions
Review 8.5 Exponential Functions Quadratic Functions Linear Functions

2 Identifying from an equation:
Linear Has an x with no exponent. y = 5x + 1 y = ½x 2x + 3y = 6 Quadratic Has an x2 in the equation. y = 2x2 + 3x – 5 y = x2 + 9 x2 + 4y = 7 Exponential Has an x as the exponent. y = 3x + 1 y = 52x 4x + y = 13

3 Examples: LINEAR, QUADRATIC or EXPONENTIAL? y = 6x + 3 y = 7x2 +5x – 2

4 Examples: LINEAR, QUADRATIC or EXPONENTIAL? y = 6x + 3 EXPONENTIAL
y = 7x2 +5x – 2 QUADRATIC 9x + 3 = y LINEAR 42x = EXPONENTIAL

5 Identifying from a graph:
Linear Makes a straight line Quadratic Makes a parabola Exponential Rises or falls quickly in one direction

6 LINEAR, QUADRATIC or EXPONENTIAL?
a) b) c) d)

7 LINEAR, QUADRATIC or EXPONENTIAL?
a) quadratic b) exponential c) linear d) absolute value

8 absolute value Think of the definition of absolute value. It is a piecewise defined function. |x| = x, if x>=0 and -x if x<0. In other words, the graph of y=|x| is formed by two pieces of two lines. For the part of the domain where x-values are less than zero, the graph corresponds to the graph of y=-x. For parts of the domain where x-values are greater than or equal to zero, the graph corresponds to the graph of y=x. While the absolute value function does not satisfy the definition for a linear function, it is actually "parts" of two linear functions.

9 Is the table linear, quadratic or exponential?
y changes more quickly than x. Never see the same y value twice. Common multiplication pattern Linear Never see the same y value twice. 1st difference is the same Quadratic See same y more than once. 2nd difference is the same

10 Concept

11 Example 1 A. Graph the ordered pairs. Determine whether the ordered pairs represent a linear, quadratic, or exponential function. (1, 2), (2, 5), (3, 6), (4, 5), (5, 2) Answer: The ordered pairs appear to represent a quadratic equation.

12 Example 1 B. Graph the ordered pairs. Determine whether the ordered pairs represent a linear, quadratic, or exponential function. (–1, 6), (0, 2), Answer: The ordered pairs appear to represent an exponential function.

13 Example 1 A. Graph the set of ordered pairs. Determine whether the ordered pairs represent a linear, quadratic, or exponential function. (–2, –6), (0, –3), (2, 0), (4, 3) A. linear B. quadratic C. exponential

14 Example 1 B. Graph the set of ordered pairs. Determine whether the ordered pairs represent a linear, quadratic, or exponential function. (–2, 0), (–1, –3), (0, –4), (1, –3), (2, 0) A. linear B. quadratic C. exponential

15 Example 2 A. Look for a pattern in the table of values to determine which kind of model best describes the data. 2 2 2 2 First differences: Answer: Since the first differences are all equal, the table of values represents a linear function.

16 Example 2 B. Look for a pattern in the table of values to determine which kind of model best describes the data. __ 4 3 9 –24 –8 –2 __ 2 3 __ 8 9 First differences: The first differences are not all equal. So, the table of values does not represent a linear function. Find the second differences and compare.

17 Example 2 –24 –8 –2 2 3 8 9 – First differences: 16 5 1 3 1 7 9
__ 2 3 8 9 First differences: 16 5 __ 1 3 1 __ 7 9 Second differences: The second differences are not all equal. So, the table of values does not represent a quadratic function. Find the ratios of the y-values and compare. 36 4 __ 9 12 3 __ 1 3 __ 1 3 __ 1 3 __ 1 3 Ratios:

18 Example 2 The ratios of successive y-values are equal.
Answer: The table of values can be modeled by an exponential function.

19 Example 2 A. Look for a pattern in the table of values to determine which kind of model best describes the data. A. linear B. quadratic C. exponential D. none of the above

20 Example 2 B. Look for a pattern in the table of values to determine which kind of model best describes the data. A. linear B. quadratic C. exponential D. none of the above

21 Example 2 B. Look for a pattern in the table of values to determine which kind of model best describes the data. A. linear B. quadratic C. exponential D. none of the above / /8

22 Example 3 Write an Equation Determine which kind of model best describes the data. Then write an equation for the function that models the data. Step 1 Determine which model fits the data. – – – – –4096 –7 –56 –448 –3584 First differences:

23 Example 3 –7 –56 –448 –3584 First differences: –49 –392 –3136
Write an Equation –7 –56 –448 –3584 First differences: –49 –392 –3136 Second differences: –1 –8 –64 Ratios: –512 –4096 × 8 × 8 × 8 × 8 The table of values can be modeled by an exponential function.

24 Example 3 Write an Equation Step 2 Write an equation for the function that models the data. The equation has the form y = abx. Find the value of a by choosing one of the ordered pairs from the table of values. Let’s use (1, –8). y = abx Equation for exponential function –8 = a(8)1 x = 1, y = –8, b = 8 –8 = a(8) Simplify. –1 = a An equation that models the data is y = –(8)x. Answer: y = –(8)x

25 Example 3 Determine which model best describes the data. Then write an equation for the function that models the data. A. quadratic; y = 3x2 B. linear; y = 6x C. exponential; y = 3x D. linear; y = 3x

26 Write an Equation for a Real-World Situation
Example 4 KARATE The table shows the number of children enrolled in a beginner’s karate class for four consecutive years. Determine which model best represents the data. Then write a function that models that data.

27 Write an Equation for a Real-World Situation
Example 4 Understand We need to find a model for the data, and then write a function. Plan Find a pattern using successive differences or ratios. Then use the general form of the equation to write a function. Solve The first differences are all 3. A linear function of the form y = mx + b models the data.

28 Example 4 y = mx + b Equation for linear function
Write an Equation for a Real-World Situation Example 4 y = mx + b Equation for linear function 8 = 3(0) + b x = 0, y = 8, and m = 3 b = 8 Simplify. Answer: The equation that models the data is y = 3x + 8. Check You used (0, 8) to write the function. Verify that every other ordered pair satisfies the function.

29 Example 4 WILDLIFE The table shows the growth of prairie dogs in a colony over the years. Determine which model best represents the data. Then write a function that models the data. A. linear; y = 4x + 4 B. quadratic; y = 8x2 C. exponential; y = 2 ● 4x D. exponential; y = 4 ● 2x

30 EXAMPLE 2 Identify functions using differences or ratios b. x – 2 – 1 1 2 y 4 7 10 Differences: ANSWER The table of values represents a linear function.

31 EXAMPLE 2 Identify functions using differences or ratios Use differences or ratios to tell whether the table of values represents a linear function, an exponential function, or a quadratic function. a. x –2 –1 1 2 y –6 –4 6 First differences: Second differences: ANSWER The table of values represents a quadratic function.

32 GUIDED PRACTICE for Examples 1 and 2 2. Tell whether the table of values represents a linear function, an exponential function, or a quadratic function. y 2 x – 2 – 1 1 0.08 0.4 10 ANSWER exponential function

33 Is the table linear, quadratic or exponential?
y 1 2 -1 3 4 5 8 x y 1 3 2 9 27 4 81 5 243 x y 1 5 2 9 3 13 4 17 21 Linear quadratic exponential

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