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Calculus I (MAT 145) Dr. Day Wednesday Sept 12, 2018

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1 Calculus I (MAT 145) Dr. Day Wednesday Sept 12, 2018
Return Quiz #5; Test #1 Friday (STV 126) Review: What Makes a Function Discontinuous? (Sec 2.5) Applying Limits to Our Secant-Slopes to Tangent-Slope Task (2.7,2.8) Return Quiz #5 Wednesday, Sept 12, 2018 MAT 145

2 Removable Discontinuity Removable Discontinuity
Infinite Discontinuity Jump Discontinuity Wednesday, Sept 12, 2018 MAT 145

3 More about Continuity Wednesday, Sept 12, 2018 MAT 145

4 Identify intervals of continuity & Locations where function is continuous from right or left
Wednesday, Sept 12, 2018 MAT 145

5 Types of Discontinuities
Draw the graph of a function y = f(x) so that the graph shows: exactly one removable discontinuity, and exactly one jump discontinuity, and exactly one infinite discontinuity. After you have completed the graph, identify the location of each of these discontinuities. Wednesday, Sept 12, 2018 MAT 145

6 Wednesday, Sept 12, 2018 MAT 145

7 Secant Slope We want to find the tangent line to y = f (x) at the point P (a, f (a)). Consider a nearby point Q (x, f (x)), where x  a, and compute the slope of the secant line PQ: Wednesday, Sept 12, 2018 MAT 145

8 Tangent slope as limit Wednesday, Sept 12, 2018 MAT 145

9 Find an equation of the tangent line to the parabola y = x2 at the point P(1, 1).
Wednesday, Sept 12, 2018 MAT 145

10 C B A D E Wednesday, Sept 12, 2018 MAT 145

11 Calculate the slope at x = −2. Calculate the slope at x = 0.
Calculate the slope at x = a. Wednesday, Sept 12, 2018 MAT 145

12 Calculate the slope of f(x) = x2 at x = a.
Wednesday, Sept 12, 2018 MAT 145

13 We call this slope calculation the derivative of f at x = a.
Wednesday, Sept 12, 2018 MAT 145

14 Wednesday, Sept 12, 2018 MAT 145

15 Wednesday, Sept 12, 2018 MAT 145

16 Monday, February 1, 2016 Wednesday, Sept 12, 2018 MAT 145 MAT 145

17 Another way to label points and calculate slope
Let x = a + h and so the slope of the secant line PQ is Wednesday, Sept 12, 2018 MAT 145

18 Wednesday, Sept 12, 2018 MAT 145

19 Tangent slope again Wednesday, Sept 12, 2018 MAT 145

20 The value f ’(a) is called:
the derivative of f at x = a, the instantaneous rate of change of f at x = a, the slope of f at x = a, and the slope of the tangent line to f at x = a. Wednesday, Sept 12, 2018 MAT 145

21 The derivative in action!
S(t) represents the distance traveled by some object, where t is in minutes and S is in feet. What is the meaning of S’(12)=100? Wednesday, Sept 12, 2018 MAT 145

22 The derivative in action!
S(t) represents the distance traveled by some object, where t is in minutes and S is in feet. What is the meaning of S’(12)=100? From the description of the context, the “rate units” are: feet per minute. The value 12 is an input variable, so we are looking at the precise instant that 12 minutes of travel has occurred, since some designated starting time when t = 0. S’ indicates rate of change of S, indicating we have information about how S is changing with respect to t, in feet per minute. The value 100 specifies the rate: 100 feet per minute. Putting it all together: At precisely 12 minutes into the trip, the object’s position is increasing at the rate of 100 feet per minute. Wednesday, Sept 12, 2018 MAT 145

23 The derivative in action!
C(p) represents the total daily cost of operating a hospital, where p is the number of patients and C is in thousands of dollars. What is the meaning of C’(90)=4.5? Wednesday, Sept 12, 2018 MAT 145

24 The derivative in action!
C(p) represents the total daily cost of operating a hospital, where p is the number of patients and C is in thousands of dollars. What is the meaning of C’(90)=4.5? From the description of the context, the “rate units” are: thousands of dollars per patient. The value 90 is an input variable, so we are looking at the precise instant when 90 patients are in the hospital. C’ indicates rate of change of C, indicating we have information about how C is changing with respect to p, in thousands of dollars per patient. The value 4.5 specifies the rate: 4.5 thousand dollars ($4500) per patient. Putting it all together: At precisely the instant that 90 patients are in the hospital, the cost per patient is increasing at the rate of $4500 per patient. Wednesday, Sept 12, 2018 MAT 145

25 The derivative in action!
V(r) represents the volume of a sphere, where r is the radius of the sphere in cm. What is the meaning of V ’(3)=36π? From the description of the context, the “rate units” are: cubic cm of volume per cm of radius. The value 3 is an input variable, so we are looking at the precise instant when the sphere’s radius is 3 cm long. V’ indicates rate of change of V, indicating we have information about how V is changing with respect to r, in cubic cm per cm. The value 36π specifies the rate: 36π cubic cm of volume per 1 cm of radius length. Putting it all together: At precisely the instant that the sphere has a radius length of 3 cm, the sphere’s volume is increasing at the rate of 36π cubic cm per cm of radius length. Wednesday, Sept 12, 2018 MAT 145

26 Can we create a derivative function f that will be true for any x value where a derivative exists?
Wednesday, Sept 12, 2018 MAT 145

27 Wednesday, Sept 12, 2018 MAT 145

28 The slope of this secant line differs from the slope of the tangent line by an amount that is approximately proportional to h. As h approaches zero, the slope of the secant line approaches the slope of the tangent line. Therefore, the true derivative of f at x is the limit of the value of the slope function as the secant lines get closer and closer to being a tangent line. Wednesday, Sept 12, 2018 MAT 145

29 Calculate the derivative function, f ’(x), for f(x) = x2
Calculate the derivative function, f ’(x), for f(x) = x2. Use the limit definition of the derivative. Wednesday, Sept 12, 2018 MAT 145

30 Wednesday, Sept 12, 2018 MAT 145

31 Here is a graph of the function y = g(x)
Here is a graph of the function y = g(x). Arrange the following values in increasing order. Explain your process and determination. Wednesday, Sept 12, 2018 MAT 145

32 Here is the graph of the function y = |x|.
Why does the derivative NOT exist at x = 0? Wednesday, Sept 12, 2018 MAT 145

33 Three situations for which a derivative DOES NOT EXIST!
Wednesday, Sept 12, 2018 MAT 145

34 For each graphed function, state points at which the function is NOT differentiable. Explain your choices! Wednesday, Sept 12, 2018 MAT 145

35 Match each function, a-d, with its derivative, I-IV.
Wednesday, Sept 12, 2018 MAT 145

36 Identify each curve. Explain your choices.
Here are the graphs of four functions. One repre- sents the position of a car as it travels, another represents the velocity of that car, a third repre- sents the acceleration of the car, and a fourth graph represents the jerk for that car. Identify each curve. Explain your choices. Wednesday, Sept 12, 2018 MAT 145

37 Here is the graph of a function f. Use it to sketch the graph of f ’.
Wednesday, Sept 12, 2018 MAT 145

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