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Sec 4.6: Applied Optimization EXAMPLE 1 An open-top box is to be made by cutting small congruent squares from the corners of a 12-in.-by-12-in. sheet of.

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Presentation on theme: "Sec 4.6: Applied Optimization EXAMPLE 1 An open-top box is to be made by cutting small congruent squares from the corners of a 12-in.-by-12-in. sheet of."— Presentation transcript:

1 Sec 4.6: Applied Optimization EXAMPLE 1 An open-top box is to be made by cutting small congruent squares from the corners of a 12-in.-by-12-in. sheet of tin and bending up the sides. How large should the squares cut from the corners be to make the box hold as much as possible?

2 Sec 4.6: Applied Optimization EXAMPLE 1 An open-top box is to be made by cutting small congruent squares from the corners of a 12-in.-by-12-in. sheet of tin and bending up the sides. How large should the squares cut from the corners be to make the box hold as much as possible? http://www.math.washington.edu/~c onroy/general/boxanim/boxAnimati on.htm

3 Solving Applied Optimization Problems 1. Read the problem. Read the problem until you understand it. What is given? What is the unknown quantity to be optimized? 2. Draw a picture. Label any part that may be important to the problem. 3. Introduce variables. List every relation in the picture and in the problem as an equation or algebraic expression, and identify the unknown variable. Sec 4.6: Applied Optimization 4. Write an equation for the unknown quantity (maximize or minimize). If you can, express the unknown as a function of a single variable or in two equations in two unknowns. This may require considerable manipulation. 5. Find the domain of the single variable function. The possible value of x in the problem 6. Test the critical points and endpoints in the domain of the unknown. Use your knowledge from section 4.1 -4.4 to find the global maximum or global minimum The cutout squares should be 2 in. on a side. EXAMPLE 1 An open-top box is to be made by cutting small congruent squares from the corners of a 12-in.-by-12-in. sheet of tin and bending up the sides. How large should the squares cut from the corners be to make the box hold as much as possible? Criticals are x=2, 6

4 Solving Applied Optimization Problems 1. Read the problem. 2. Draw a picture 3. Introduce variables. 4. Write an equation for the unknown quantity (maximize or minimize).. 5. Find the domain of the single variable function. 6. Test the critical points and endpoints in the domain of the unknown. Sec 4.6: Applied Optimization EXAMPLE 1 A farmer has 2400 ft of fencing and wants to fence off a rectangular field that borders a straight river. He needs no fence along the river. What are the dimensions of the field that has the largest area? The dimensions is 600X1200 Criticals are x= 600

5 F092 Sec 4.6: Applied Optimization

6 F081 Sec 4.6: Applied Optimization

7 F091 Sec 4.6: Applied Optimization

8 F122 Sec 4.6: Applied Optimization

9 F101 Sec 4.6: Applied Optimization

10 10 F101 Sec 4.6: Applied Optimization

11 F121 Sec 4.6: Applied Optimization

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