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The maximum value of Z = 4x + 2y subjected to the constraints 2x + 3y ≤ 18, x + y ≥ 10 ; x, y ≥ 0 is
Concept: undefined >> undefined
The optimal value of the objective function is attained at the points
Concept: undefined >> undefined
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The maximum value of Z = 4x + 3y subjected to the constraints 3x + 2y ≥ 160, 5x + 2y ≥ 200, x + 2y ≥ 80; x, y ≥ 0 is
Concept: undefined >> undefined
Consider a LPP given by
Minimum Z = 6x + 10y
Subjected to x ≥ 6; y ≥ 2; 2x + y ≥ 10; x, y ≥ 0
Redundant constraints in this LPP are
Concept: undefined >> undefined
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
Concept: undefined >> undefined
If the constraints in a linear programming problem are changed
Concept: undefined >> undefined
Which of the following is not a convex set?
Concept: undefined >> undefined
In Figure ABCD is a regular hexagon, which vectors are:
(i) Collinear
(ii) Equal
(iii) Coinitial
(iv) Collinear but not equal.
Concept: undefined >> undefined
Show that y = ae2x + be−x is a solution of the differential equation \[\frac{d^2 y}{d x^2} - \frac{dy}{dx} - 2y = 0\]
Concept: undefined >> undefined
y2 dx + (x2 − xy + y2) dy = 0
Concept: undefined >> undefined
Verify that the function y = e−3x is a solution of the differential equation \[\frac{d^2 y}{d x^2} + \frac{dy}{dx} - 6y = 0.\]
Concept: undefined >> undefined
In the following verify that the given functions (explicit or implicit) is a solution of the corresponding differential equation:-
y = ex + 1 y'' − y' = 0
Concept: undefined >> undefined
In the following verify that the given functions (explicit or implicit) is a solution of the corresponding differential equation:-
`y=sqrt(a^2-x^2)` `x+y(dy/dx)=0`
Concept: undefined >> undefined
Form the differential equation representing the family of curves y = a sin (x + b), where a, b are arbitrary constant.
Concept: undefined >> undefined
Form the differential equation representing the family of parabolas having vertex at origin and axis along positive direction of x-axis.
Concept: undefined >> undefined
Form the differential equation of the family of circles having centre on y-axis and radius 3 unit.
Concept: undefined >> undefined
Form the differential equation of the family of parabolas having vertex at origin and axis along positive y-axis.
Concept: undefined >> undefined
Solve for x `tan^-1((1 - x)/(1 + x)) = 1/2 tan^-1x, x > 0`
Concept: undefined >> undefined
The domain of the function y = sin–1 (– x2) is ______.
Concept: undefined >> undefined
The domain of y = cos–1(x2 – 4) is ______.
Concept: undefined >> undefined
