Download App

Linear Programming — Maths STD 12 Science — Question

Gujarat BoardEnglish MediumSTD 12 ScienceMathsLinear Programming1 Mark
MCQ
If the constraints in a linear programming problem are changed:
  • Solution is not defined.
  • B
    The objective function has to be modified.
  • C
    The problems is to be re - evaluated.
  • D
    None of these.

Answer

Correct option: A.
Solution is not defined.
The problems is to be re - evaluated.

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "M.C.Q (1 Marks)" from Linear ProgrammingLinear Programming — all question typesMaths STD 12 Science question papersGujarat Board STD 12 Science question papersGujarat Board question paper generator

Similar questions

The function $f(x) = \left\{ {\begin{array}{*{20}{c}}{{e^{2x}} - 1}&,&{x \le 0}\\{ax + \frac{{b{x^2}}}{2} - 1}&,&{x > 0}\end{array}} \right.$ is continuous and differentiable for
If there is an error of $2\%$ in measuring the length of a simple pendulum, then percentage error in its period is:
Choose the correct answer from the given four options. A box contains 3 orange balls, 3 green balls and 2 blue balls. Three balls are drawn at random from the box without replacement. The probability of drawing 2 green balls and one blue ball is:
The line $y=m x+1$ is a tangent to the curve $y^2=4 x,$ if the value of $m$ is :
Let $f(x) = e^x -x$ and $g(x) = x^2 -x$, $\forall  \in R$. Then the set of all $x \in R$, where the function $h(x) = (fog)\, (x)$ is increasing is
Let $\mathrm{ABC}$ be a triangle of area $15 \sqrt{2}$ and the vectors $\overrightarrow{\mathrm{AB}}=\hat{i}+2 \hat{j}-7 \hat{k}, \quad \overrightarrow{B C}=a \hat{i}+b \hat{j}+c \hat{k}$ and $\overrightarrow{\mathrm{AC}}=6 \hat{\mathrm{i}}+\mathrm{d} \hat{\mathrm{j}}-2 \hat{\mathrm{k}}, \mathrm{d}>0$. Then the square of the length of the largest side of the triangle $\mathrm{ABC}$ is....................
The angle between the line $\frac{{x + 1}}{3} = \frac{{y - 1}}{2} = \frac{{z - 2}}{4}$ and the plane $2x + y - 3z + 4 = 0$, is
The value of $\lambda$ for which $\int {\frac{{4{x^3} + \lambda {4^x}}}{{{4^x} + {x^4}}}} \,\,dx = \log ({4^x} + {x^4}) + c$ is
If $y = f(x) = \frac{{x + 2}}{{x - 1}}$, then $x = $
The inverse matrix of $\left[ {\begin{array}{*{20}{c}}0&1&2\\1&2&3\\3&1&1\end{array}} \right],$ is