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The corner points of the bounded feasibl...

The corner points of the bounded feasible region are `(0, 0), (0, 8), (4, 10), (6, 8),(6, 5)` and `(5, 0)`. For the objective function `z = 3x -4y ………` (Maximum value of z + Minimum value of z) is equal to

A

13

B

1

C

-13

D

-17

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The correct Answer is:
D
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KUMAR PRAKASHAN-LINEAR PROGRAMMING-SOLUTIONS OF NCERT EXEMPLAR PROBLEMS
  1. The corner points of the feasible region determined by the system of l...

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  2. The feasible solution for a LPP is shown in Figure Let z = -3x - 4y ...

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  3. The feasible solution for a LPP is shown in Figure Let z = -3x - 4y ...

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  4. The corner points of the bounded feasible region are (0, 0), (0, 8), (...

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  5. The feasible region for an LLP is shown in the Figure. Let z = 3x - 4y...

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  6. The feasible region for an LLP is shown in the Figure. Let z = 3x - 4y...

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

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

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

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  10. In a LPP, the linear inequalities or restrictions on the variables are...

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  11. In a LPP, the objective function is always ………….

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  12. If the feasible region for a LPP is …………, then the optimal value of th...

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  13. In a LPP if the objective function z = ax + by has the same maximum va...

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  14. A feasible region of a system of linear inequalities is said to be ………...

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  15. A corner point of a feasible region is a point in the region which is ...

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  16. The feasible region for an LLP is always a …….. polygon.

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  17. If the feasible region for a LPP is unbounded, maximum or minimum of t...

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  18. Maximum value of the objective function Z = ax + by in a LPP always oc...

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  19. In a LPP, the minimum value of the objective function Z = ax + by is a...

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  20. In a LPP, the maximum value of the objective function z = ax + by is a...

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