Solve the following linear programming problem graphically. cl maximize & z=20 x+30 y constraints & x+2 y 20 & 3 x+2 y 30 & x 0, y 0

Solve the following linear programming problem graphically. cl ma…

Examine the continuity and differentiability of function $f(x)=|x|+|x-1|$ in interval $(-1,2)$.

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Solve the following LPP using graphical method
$
\begin{array}{cc}
\operatorname{minimize} & z=200 x+500 y \\
\text { constraints } & x+2 y \geq 10 \\
& 3 x+4 y \leq 24 \\
& x \geq 0, y \geq 0
\end{array}
$

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Minimize $Z = x +2 y$ subject to constraints
$2 x+2 y \geq 3 ; $
$x+2 y \geq 6 ;$
$x, y \geq 0$
using graphical method.

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Prove that $\int_a^b(a+b-x) d x=\int_a^b f(x) d x$ and using this find $\int_4^a \frac{f(x)}{f(x)+f(13-x)} d x$.

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Solve the differential equation $(x+y) d y+(x-y) d x=0$, given $y =1$ when $x =1$.

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If $y=\sin \left[2 \tan ^{-1}\left(\sqrt{\frac{1-x}{1+x}}\right)\right]$ then find $\frac{d y}{d x}$.

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Surface area of a spherical bubble is increasing at the rate of $2 cm^2 / sec$. At what rate volume of bubble increasing when radius of bubble is $6 m$ ?

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Find the value of $\int_0^\pi \frac{x \sin x}{1+\cos ^2 x} d x$

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Function $f(x)=\left\{\begin{array}{c}x^2+m, \text { when } x \neq 0 \\ -x^2-m, \text { when } x=2\end{array}\right.$, is continuous at $x=0$ then find value of $m$.

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An aeroplane can carry a maximum of 200 passengers. A profit of Rs. 400 is made, on each executive class ticket and a profit of Rs. 600 is made on each economy class ticket. The airline reserves at least 20 seats for executive class. However at least 4 times as many passengers prefer to travel by economy class than by executive class. Formulate linear programming problem in order to maximize the profit for the airline.

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