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The maximum value of linear objective fu...

The maximum value of linear objective function z = 40x + 50y subjected to `3x + y le 9, x + 2y lt 8, x ge 0, y ge 0` is

A

220

B

240

C

260

D

230

Text Solution

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The correct Answer is:
D
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HIMALAYA PUBLICATION-LINEAR PROGRAMMING-QUESTION BANK
  1. The shaded region in the following figure is the solution set of the i...

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  2. The shaded region in the following figure is the solution set of the i...

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  3. The maximum value of linear objective function z = 40x + 50y subjected...

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  4. The shaded region in the following figure is the solution set of the i...

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  5. Maximum value of set z = 3x +2y subjected to 0 le x le 3, 0 le y le 3,...

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  6. The shaded region in the following figure is the solution set of the i...

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  7. The minimum value of z = 6x + 4y subjected to 2x + 3y le 30, 3x + 2y l...

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  8. The region represented by the inequations 2x + 3y le 18, x + y ge 10, ...

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  9. Optimization of the objective function is a process of

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  10. The corner points of the feasible region determined by the system line...

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  11. Feasible region (shaded ) for a LPP is shown in the following figure

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  12. The corner points of the feasible region determined by the system of l...

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  13. The feasible solution for a LPP is shown in the following figure. Let ...

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  14. The feasible solution for a LPP is shown in the following figure. Let ...

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  15. The feasible solution for a LPP is shown in the following figure. Let ...

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  16. The feasible region for an LPP is shown in the following figure. Let F...

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  17. The feasible region for an LPP is shown in the following figure. Let F...

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  18. Corner points of feasible region for an LPP are (0,2),(3,0),(6,0),(6,8...

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  19. In the equation 33 Maximum of F - Minimum of F =

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  20. Corner points of the feasible region determined by the system of linea...

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