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Bellwork Identify the focus, directrix, and axis of symmetry of the parabola. Graph the equation. Also describe the Transformations 6

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Presentation on theme: "Bellwork Identify the focus, directrix, and axis of symmetry of the parabola. Graph the equation. Also describe the Transformations 6 "— Presentation transcript:

1 Bellwork Identify the focus, directrix, and axis of symmetry of the parabola. Graph the equation. Also describe the Transformations 6 𝑥 y = 0 x = 1/16(y − 3 )

2 Modeling with Quadratic Functions
Section 2.4

3

4 Writing an Equation Using a Vertex and a Point
The graph shows the parabolic path of a performer who is shot out of a cannon, where y is the height (in feet) and x is the horizontal distance traveled (in feet). Write an equation of the parabola. The performer lands in a net 90 feet from the cannon. What is the height of the net? From the graph, you can see that the vertex (h, k) is (50, 35) and the parabola passes through the point (0, 15). Use the vertex and the point to solve for a in vertex form

5 Writing an Equation Using a Point and x-Intercepts
A meteorologist creates a parabola to predict the temperature tomorrow, where x is the number of hours after midnight and y is the temperature (in degrees Celsius). Write a function f that models the temperature over time. What is the coldest temperature? What is the average rate of change in temperature over the interval in which the temperature is decreasing? increasing? Compare the average rates of change.

6 So, the coldest temperature is −10°C at 14 hours after midnight, or 2 p.m.

7

8 Because ∣ −1.4 ∣ > ∣ 1 ∣ , the average rate at which the temperature decreases from midnight to 2 p.m. is greater than the average rate at which it increases from 2 p.m. to midnight.

9 Writing Equations to Model Data
When data have equally-spaced inputs, you can analyze patterns in the differences of the outputs to determine what type of function can be used to model the data. Linear data have constant first differences. Quadratic data have constant second differences. The first and second differences of f(x) = x2 are shown below.

10 NASA can create a weightless environment by flying a plane in parabolic paths. The table shows heights h (in feet) of a plane t seconds after starting the flight path. After about 20.8 seconds, passengers begin to experience a weightless environment. Write and evaluate a function to approximate the height at which this occurs. Use Quadratic Regression in your calculator

11 Bellwork Is the table represents a quadratic function?
Find the equation of the function.

12

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