Quadratic Word Problemy Funtime Worksheet Chapter: 2 Assign:3a 1. The number of horsepower needed to overcome a wind drag on a certain automobile is given by N ( s ) = .005s 2 + .007s − .031 , where s is the speed of the car in miles per hour. a. How much horsepower is needed to overcome the wind drag on this car if it is traveling 50 miles per hour? b. At what speed will the car need to use 200 horsepower to overcome the wind drag? c. What’s the problem with using this model in this situation? 2.The number of baseball games that must be scheduled in a league with n teams is given by n2 − n G (n) = , where each team plays every other team exactly once. A league schedules 15 games. 2 a. How many teams are in the league? b. If there were 21 games, how many teams would there be in the league? 3.For the years of 1983 to 1990, the number of mountain bike owners m (in millions) in the US can be approximated by the model m = m = .337t − 2.265t + 3.962, 3 ≤ t ≤ 10 , where t =3 represents 1983. 2 a. In which year did 2.5 million people own mountain bikes? b. In what year was the number of mountain bike owners at a minimum? 4.A manufacturer of tennis balls has a daily cost C ( x ) = −.01x −10x + 200 where C is the total cost in dollars and x is the number of tennis balls produced. 2 a. What number of tennis balls will produce the minimum? b. Does the cost of making “one more tennis ball” always change by the same amount (whether you make 10, 100 or 1000 tennis balls)? 5. The value of Jennifer’s stock portfolio is given by the function V ( t ) = 50 + 73t − 3t , where the value of the portfolio in hundreds of dollars and t is the time in months. 2 a. How much money did Jennifer start with? b. When will the value of Jennifer’s portfolio be at a maximum? c. How many times more than her initial investment will this maximum value be? 6. A textile manufacturer has daily production costs of C = 10, 000 −110x − .45x , where C is the total cost (in dollars) and x is the number of units produced. 2 a. How many units should be produced each day to yield a minimum cost? b. What does the 10,000 represent in the C function. 7. Advertising revenue for newspapers in the United States for the years 1985 through 1999 is approximated by the model R = −1.03 + 7.11t − .38t , where R is revenue in billions of dollars and t represents the year with t =5 corresponding to the year 1985. 2 a. In what year will revenue be maximum? b. What did the model predict that maximum revenue to be? c. What does this model predict about the long-term trend in newspaper advertising revenue? Do you agree with this prediction? Why or why not? 8. The height, in feet, of a bottle rocket is given by h ( t ) = 160t −16t where t is the time in seconds. 2 a. How long will it take for the rocket to return to the ground? b. What is the height after 2 seconds? 9. A foul ball leaves the end of a baseball bat and travels according to the formula h (t ) = 64t −16t 2 , where h is the height of the ball in feet and t is the time in seconds. a. How long will it take for the ball to reach a height of 64 feet in the air? b. How long will it take for the ball to be caught by the catcher? (5’) 10. Julie is hitting baseballs. When she tosses the ball into the air, her hand is 5 feet above the ground. She hits the ball when it falls back to a height of 4 feet. The height of the ball is given by h (t ) = −16t 2 + 48t +160 , where t is in seconds. a. How much time will pass before Jon hits the ball? b. What is the maximum height the ball attains? 11.While playing basketball this weekend Frank shoots an air-ball. The height h in feet of the ball is given by h (t ) = −16t 2 + 32t + 8 a. How long will it take the ball to strike the ground? b. What is the maximum height of the ball? c. Does the 8 make sense in the context of this problem? 12.While on an Audubon field trip Jennifer sees a Red-Tail Hawk drop its prey. The height h in feet of the prey is given by h ( t ) = −16t + 48t + 50 2 a. How long will it take the prey to strike the ground? b. What is the maximum height of the prey? Maximizing Area problems for the final project in April: 13. The length of a rectangular flower garden is 5 feet more than its width. If the area of the garden is 104 square feet, find the dimensions of the flower garden. 14. The height of a triangular flower garden is 6 feet more than the length of the base. If the area of the garden is 8 square feet, find the dimensions of the flower garden. 15. The length of a Ping-Pong table is 3 ft more than twice the width. The area of a Ping-Pong table is 90 square feet. What are the dimensions of a Ping-Pong table? 16. The perimeter of a rectangle is 50 yds. What are the dimensions that will produce the maximum area of such a rectangle? What is the maximum area? 17. The perimeter of a rectangle is n feet. What are the dimensions that will produce the maximum area of such a rectangle? (your answer should be in terms of n) 18.Three hundred feet of fencing is available to enclose a rectangular yard along side of the St. John’s River, which is one side of the rectangle as seen below. a. What dimensions will produce an area of 10,000 ft 2 ? b. What is the maximum area that can be enclosed? 19. Two rectangular pens are to be made from 200 yds of fencing as seen to the left. Determine the dimensions that will produce the maximum area. 20. Two rectangular lots are to be made from 400 ft of fencing as seen below. Determine the dimensions that will produce the maximum area. 21.Three rectangular corrals are to be made from 800 meters of fencing as seen to the right. a. Determine the dimensions that will produce the maximum area. b. What is area of one of the corrals? 22. Three rectangular corrals are to be made from 100 yards of fencing as seen to the left. Determine the dimensions that will produce the maximum area. What is area of one of the corrals? 23.Christina wants to make an enclosed rectangular area for a mulch pile. She wants to make the enclosure in such a way as to use a corner of her back yard. She also wants it to be twice as long as it is wide. Since the yard is already fenced, she simply needs to construct two sides of the mulch pile enclosure. She has only 15 feet of material available. Find the dimensions of the enclosure that will produce the maximum area. 24.Show that among all rectangles of fixed perimeter p the one with the largest area is a square. 25.An Athletic field with a perimeter of 14 mile consists of a rectangle with a semicircle at each end, as shown below. Find the dimensions that yield the greatest possible area for the rectangular region.
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