29-30. The shaded region in the given figure above illustrates an unboundedfeasible region. Which of the following is true? 1. The maximum value for theobjective function does not exist in an unbounded feasible region. II. If theobjective function is Min Z=x+y, then it's maximum is 25 at (25,0). III. If theobjective function is Max Z=-x+2y, then it's minimum is O at (25,0). IV. Unboundedfeasible regions have either maximum or minimum value.(0,24)50-10-20O A. IB. IIC. I and IID. III and IV20100-10(12)10(15.5)(25.0)40

Consider the following figure. Here, corner points are A25,0,B15,5,C8,12 and D0,24.

Answered: 29-30. The shaded region in the given…

Mathematics For Machine Technology

8th Edition

ISBN:9781337798310

Author:Peterson, John.

Publisher:Peterson, John.

Chapter29: Tolerance, Clearance, And Interference

Section: Chapter Questions

Problem 9A: Refer to Figure 29-7. Dimension A with its tolerance is given in each of the following problems....

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Refer to Figure 29-7. Dimension A with its tolerance is given in each of the following problems. Determine the maximum dimension (maximum limit) and the minimum dimension (minimum limit) for each. a. Dimension A =4.6400.003+0.003 maximum________ minimum________ b. Dimension A =5.9270.0012+0.0000 maximum________ minimum________ c. Dimension A =2.0040.004+0.000 maximum________ minimum________ d. Dimension A =4.67290.0012+0.0000 maximum________ minimum________ e. Dimension A =1.08750.0000+0.0009 maximum________ minimum________ f. Dimension A =28.16mm0.06mm+0.00mm maximum________ minimum________ g. Dimension A =43.94mm0.00mm+0.04mm maximum________ minimum________ h. Dimension A =118.66mm0.00mm+0.07mm maximum________ minimum________ i. Dimension A =73.398mm0.012mm+0.000mm maximum________ minimum________ j. Dimension A =45.106mm0.000mm+0.009mm maximum________ minimum________
Maximize the function fx,y=7x+5y in the region determined by the constraints of Problem 34.
2. Give an example showing that, even if f0(c) = 0, it could happen that f(x) does not have a localmaximum or minimum at x = c. How is this consistent with Fermat’s Theorem in the book?
Find the maximum value of the function z = 8x-2y with the restrictions as shown by the feasible region above

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