Assertion (A): Every point of the feasible region of a Linear Programming Problem is an optimal solution.
Reason (R): The optimal solution for a Linear Programming Problem exists only at one or more corner point(s) of the feasible region.
Reason (R): The optimal solution for a Linear Programming Problem exists only at one or more corner point(s) of the feasible region.
Show Hint
- Both Assertion (A) and Reason (R) are true and the Reason (R) is the correct explanation of the Assertion (A).
- Both Assertion (A) and Reason (R) are true, but Reason (R) is not the correct explanation of the Assertion (A).
- Assertion (A) is true but Reason (R) is false.
- Assertion (A) is false but Reason (R) is true.
The Correct Option is D
Solution and Explanation
The solution to the given problem involves understanding the concepts of Linear Programming Problems (LPP) and feasible regions.
Analysis of the Assertion (A)
Assertion (A): Every point of the feasible region of a Linear Programming Problem is an optimal solution.
The feasible region of an LPP is the set of all points that satisfy the constraints of the problem. However, for an LPP, the optimal solution does not occur at every point within this region. Instead, it is typically found at the vertices, or corner points, of the feasible region. Therefore, the assertion that every point is an optimal solution is incorrect.
Analysis of the Reason (R)
Reason (R): The optimal solution for a Linear Programming Problem exists only at one or more corner point(s) of the feasible region.
This statement is true. In the context of LPPs, according to the "Fundamental Theorem of Linear Programming," if there exists an optimal solution, it will occur at one of the corner points (vertices) of the feasible region. Therefore, this reason accurately describes where optimal solutions are located within the feasible region.
Conclusion
Upon examination:
- Assertion (A) is false—it is not true that every point of the feasible region is an optimal solution.
- Reason (R) is true—the optimal solution exists at corner points.
The correct option is: Assertion (A) is false but Reason (R) is true.
Top Questions on Linear Programming Problem
- Solve the following linear programming problem graphically: \[ \text{Minimise } Z = 2x + y \] subject to the constraints: \[ 3x + y \geq 9, \] \[ x + y \geq 7, \] \[ x + 2y \geq 8, \] \[ x, y \geq 0. \]
- CBSE CLASS XII - 2025
- Mathematics
- Linear Programming Problem
- The feasible region along with corner points for a linear programming problem are shown in the graph. Write all the constraints for the given linear programming problem.
- CBSE CLASS XII - 2025
- Mathematics
- Linear Programming Problem
- A factory produces two products X and Y. The profit earned by selling X and Y is represented by the objective function \( Z = 5x + 7y \), where \( x \) and \( y \) are the number of units of X and Y respectively sold. Which of the following statements is correct?
- CBSE CLASS XII - 2025
- Mathematics
- Linear Programming Problem
- In a linear programming problem (L.P.P.), the corner points of the feasible region are $ (5, 0), (10, 0) $ and $ (4, 1) $. Find the maximum value of $ Z = 2x + 3y $.
- KEAM - 2025
- Mathematics
- Linear Programming Problem
- In a linear programming problem (L.P.P.), the corner points of the feasible region are $ (5, 0), (10, 0) $ and } $ (4, 1) $. Find the maximum value of $ Z = 2x + 3y $.
- KEAM - 2025
- Mathematics
- Linear Programming Problem
Questions Asked in CBSE CLASS XII exam
- Calculate the value of the current passing through the battery in the given circuit diagram.
- CBSE CLASS XII - 2025
- Current electricity
(a) Calculate the standard Gibbs energy (\(\Delta G^\circ\)) of the following reaction at 25°C:
\(\text{Au(s) + Ca\(^{2+}\)(1M) $\rightarrow$ Au\(^{3+}\)(1M) + Ca(s)} \)
\(\text{E\(^\circ_{\text{Au}^{3+}/\text{Au}} = +1.5 V, E\)\(^\circ_{\text{Ca}^{2+}/\text{Ca}} = -2.87 V\)}\)
\(\text{1 F} = 96500 C mol^{-1}\)- CBSE CLASS XII - 2025
- Electrochemistry
Define the following:
(i) Cell potential
(ii) Fuel Cell- CBSE CLASS XII - 2025
- Electrochemistry
Calculate the emf of the following cell at 25°C:
\[ \text{Zn(s)} | \text{Zn}^{2+}(0.1M) || \text{Cd}^{2+}(0.01M) | \text{Cd(s)} \] Given: \[ E^\circ_{\text{Cd}^{2+}/\text{Cd}} = -0.40 \, V, \, E^\circ_{\text{Zn}^{2+}/\text{Zn}} = -0.76 \, V \] \[ [\log 10 = 1] \]- CBSE CLASS XII - 2025
- Electrochemistry
Write chemical equations of the following reactions:
(i) Phenol is treated with conc. HNO\(_3\)
(ii) Propene is treated with B\(_2\)H\(_6\) followed by oxidation by H\(_2\)O\(_2\)/OH\(^-\)
(iii) Sodium t-butoxide is treated with CH\(_3\)Cl- CBSE CLASS XII - 2025
- Alcohols, Phenols And Ethers