Which of the following is a type of Linear programming problem? 1… - Vidyadip

Question

Which of the following is a type of Linear programming problem?

Manufacturing problem
Diet problem
Transportation problems
All of the above

✓

Answer

All of the above

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If $\text{y}=\tan^{-1}\Big(\frac{\sin\text{x}+\cos\text{x}}{\cos\text{x}-\sin\text{x}}\Big),$ then $\frac{\text{dy}}{\text{dx}}$ is equals to:

$\frac{1}{2}$
0
1
None of these.

Three integers are chosen at random from the first 20 integers. The probability that their product is even is,

$\frac{2}{19}$
$\frac{3}{29}$
$\frac{17}{19}$
$\frac{4}{19}$

If $f(x) = |x^2 - 9x + 20|,$ then $f(x)$ is equal to :

The corner points of the feasible region for a Linear Programming problem are P(0,5) Q(1, 5) R(4, 2) and S(12, 0) The minimum value of the objective function Z = 2x + 5y is at the point.

Which of the following is true?

* defined by $\text{a}*\text{b}=\frac{\text{a + b}}2$ is a binary operation on Z.
* defined by $\text{a}*\text{b}=\frac{\text{a + b}}2$ is a binary operation on Q.
All binary commutative operations are associative.
Subtraction is a binary operation on N.

Out of 30 consecutive integers, 2 are chosen at random. The probability that their sum is odd, is

$\frac{14}{29}$
$\frac{16}{29}$
$\frac{15}{29}$
$\frac{10}{29}$

The equation of normal to the curve $3x^2 - y^2 = 8$ which is parallel to the line $x + 3y = 8$ is:

Find the general solution of: $\frac{\text{dy}}{\text{dx}}=\text{y}\sin\text{x:}$

y + log sin x + c = 0
log y - cos x - c = 0
log y + cos x - c = 0
None of the above

The objective function Z = 4x + 3y can be maximised subjected to the constraints 3x + 4y ≤ 24, 8x + 6y ≤ 48, x ≤ 5, y ≤ 6, x, y ≥ 0

at only one point
at two points only
at an infinite number of points
none of these

The lines $\frac{\text{x}}{1}=\frac{\text{y}}{2}=\frac{\text{z}}{3}$ and $\frac{\text{x}-1}{-2}=\frac{\text{y}-2}{-4}=\frac{\text{z}-3}{-6}$ are:

Parallel.
Intersecting.
Skew.
Coincident.