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Calculus 3-R-b Review Problems Sections 3-5 to 3-7, 3-9.

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Presentation on theme: "Calculus 3-R-b Review Problems Sections 3-5 to 3-7, 3-9."— Presentation transcript:

1 Calculus 3-R-b Review Problems Sections 3-5 to 3-7, 3-9

2 Review Problems Find the horizontal asymptote for y = 0 y = 3 1

3 Review Problems Find the horizontal asymptote for y = ±5 y = ±6 2

4 Review Problems y = 0 Find the horizontal asymptote for y = -bd 3

5 Review Problems Find the horizontal asymptote for y = 0 There are no horizontal asymptotes 4

6 Review Problems Which of the following is the correct sketch of the graph of the function II 5

7 Review Problems Which of the following is the correct sketch of the graph of the function y = x 3 – 12x + 20 I 6

8 Review Problems Which of the following is the correct sketch of the graph of the function I 7

9 Review Problems Which of the following is the correct sketch of the graph of the function III 8

10 Review Problems Sketch the graphs y = x 3 - 3x + 1 9

11 Review Problems Sketch the graphs f(x) = x sin 2x f(x) = x 5 + 2 10

12 Review Problems Sketch the graphs f (x) = 2x 4 - 8x 2 f(x) = 3x 2/3 - x 2 11

13 Review Problems Sketch the graphs f(x) = x sin 2x 12

14 Review Problems Sketch the graphs 13

15 Review Problems The product of two positive numbers is 675. Minimize the sum of the first and three times the second. 45 and 15 A rancher has 300 feet of fencing to enclose a pasture bordered on one side by a river. The river side of the pasture needs no fence. Find the dimensions of the pasture that will produce a pasture with a maximum area 75 feet by 150 feet 14

16 Review Problems Find two positive numbers whose product is a maximum if the sum of the numbers is 10. 5, 5 The management of a large store wishes to add a fenced-in rectangular storage yard of 20,000 square feet, using the building as one side of the yard. Find the minimum amount of fencing that must be used to enclose the remaining 3 sides of the yard. 400 ft 15

17 Review Problems A person has 400 feet of fencing to enclose two adjacent rectangular regions of the same size. What dimensions should each region be so that the enclosed area will be a maximum? ft. by 50 ft. 16

18 Review Problems A dog owner has 25 feet of fencing to use for a rectangular dog run. If he puts the run next to the garage, he only needs to use the wire for three sides. What dimensions will yield the maximum area? x = 6.25 ft, y = 12.5 ft 17

19 Review Problems An open box is to be made from a rectangular piece of material by cutting equal squares from each corner and turning up the sides. Find the dimensions of the box of maximum volume if the material has dimensions 6 inches by 6 inches 4 in. by 4 in. by 1 in Find the point on the graph of y = x 3 closest to the point (2, 0). Find the x-value accurate to the nearest 0.1. (0.8, 0.512) 18

20 Review Problems An open box is to be made from a rectangular piece of cardboard, 7 inches by 3 inches, by cutting equal squares from each corner and turning up the sides. a. Write the volume, V, as a function of the edge of the square, x, cut from each corner. b. Use a graphing utility to graph the function, V. Then use the graph of the function to estimate the size of the square that should be cut from each corner and the volume of the largest such box. V = x(7 - 2x)(3 - 2x) b. 0.65 in. by 0.65 in.; V = 6.3 cubic inches 19

21 Review Problems A manufacturer determines that x employees on a certain production line will produce y units per month where y = 75x 2 - 0.2x 4. To obtain maximum monthly production, how many employees should be assigned to the production line? 14 20

22 Review Problems Two equal rectangular lots are to be made by fencing in a rectangular lot and putting a fence across the middle. If each lot is to contain 1875 square feet what size lots require the minimum amount of fence and what is the minimum amount of fence needed? A rectangular field is to be fenced in so that the resulting perimeter is 250 meters. Find the dimensions of that field for which the area is maximum. 50 ft by 37.5 ft for a minimum amount of 300 ft of fence 62.5 meters by 62.5 meters 21

23 Review Problems A page is to contain 45 square inches of print. The margins at the top and bottom of the page are each inches wide. The margins on each side are 1 inch. What should be the dimensions of print so that a minimum amount of paper is used? in. by in. 22

24 Review Problems a. Write the equation for the surface area, SA, in r and h. b. Write the cost function, C. c. Write the cost function as a function of one variable, r. d. Find the radius that minimizes cost. A right circular cylinder is to be designed to hold 22 cubic inches of a soft drink. The cost for the material for the top and bottom of the can is twice the cost for the material of the sides. Let r represent the radius and h the height of the cylinder. a. SA = 2prh + 2pr 2 b. C = 2pkrh + 4pkr 2, k constant c. C = + 4pkr 2 d. r = 23

25 Review Problems The measurement of the edge of a piece of square floor tile is found to be 12 inches with a possible error of 0.02 inches. a. Use differentials to approximate the maximum possible error in the area of the tile. b. Use the answer from part a to estimate the relative error. c. Use the answer from part b to estimate the percentage error. The measurement of the circumference of a circle is found to be 54 centimeters. Approximate the percentage error in computing the area of the circle if the possible error in measuring the circumference is 0.6 centimeters. Round your answer to three decimal places. a. 0.48 square inches b. c. 2.222% 24

26 Review Problems Use differentials to approximate 1.850 Find dy for dx 25

27 Answers 1. 2. 3. 4. 5. 6. 7. 8. 9.Graphs 10. Graphs 11. Graphs 12. Graphs 13. Graphs 14. 15. 16. 17. 18. 19. y = 0y = 3 y = ±5y = ±6 y = 0 y = -bd y = 0 no horizontal asymptotes II I III I 45 and 15 75 feet by 150 feet 5, 5 400 ft ft. by 50 ft. x = 6.25 ft, y = 12.5 ft 4 in. by 4 in. by 1 in (0.8, 0.512) V = x(7 - 2x)(3 - 2x) b. 0.65 in. by 0.65 in.; V = 6.3 cubic inches

28 Answers 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 14 50 ft by 37.5 ft for a minimum amount of 300 ft of fence 62.5 meters by 62.5 meters in. by in. a. SA = 2prh + 2pr 2 b. C = 2pkrh + 4pkr 2, k constant c. C = + 4pkr 2 d. r = a. 0.48 square inches b. c. 2.222% 1.850 dx

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