Advertisements
Advertisements
प्रश्न
Find the minimum value of (ax + by), where xy = c2.
Advertisements
उत्तर १
Let z = ax + by ...(1)
Given:
xy = c2 or \[y = \frac{c^2}{x}\]
Putting
\[y = \frac{c^2}{x}\] in (1), we get
z = ax + \[\frac{b c^2}{x}\]
Differentiating both sides w.r.t. x, we get
\[\frac{dz}{dx} = a - \frac{b c^2}{x^2}\]
For maxima or minima,
\[\frac{dz}{dx} = 0\]
⇒ \[a - \frac{b c^2}{x^2} = 0\]
⇒ \[x^2 = \frac{b c^2}{a}\]
⇒ \[x = \pm c\sqrt{\frac{b}{a}}\]
Now,
\[\frac{d^2 z}{d x^2} = \frac{2b c^2}{x^3}\]
At \[x = c\sqrt{\frac{b}{a}}\], \[\frac{d^2 z}{d x^2} = \frac{2b c^2}{\left( c\sqrt{\frac{b}{a}} \right)^3} > 0\]
\[\therefore x = c\sqrt{\frac{b}{a}}\] is the point of minima.
At \[x = - c\sqrt{\frac{b}{a}}\], \[\frac{d^2 z}{d x^2} = \frac{2b c^2}{\left( - c\sqrt{\frac{b}{a}} \right)^3} < 0\]
\[\therefore x = - c\sqrt{\frac{b}{a}}\] is the point of maxima.
So,
When \[x = c\sqrt{\frac{b}{a}}\], \[y = \frac{c^2}{x} = \frac{c^2}{c\sqrt{\frac{b}{a}}} = c\sqrt{\frac{a}{b}}\]
\[\therefore z_{\text { minimum}} = ac\sqrt{\frac{b}{a}} + bc\sqrt{\frac{a}{b}} = \frac{abc + abc}{\sqrt{ab}} = \frac{2abc}{\sqrt{ab}} = 2c\sqrt{ab}\]
Thus, the minimum value of (ax + by), where xy = c2 is \[2c\sqrt{ab}\].
उत्तर २
Given that xy = c2
`y = c^2/x` ...(i)
Now, suppose S = ax + by
⇒ `S = ax + b xx c^2/x` ...[From (i)]
⇒ `"dS"/"dx" = a - (bc^2)/x^2`
For local points of maxima or minima
⇒ `"dS"/"dx" = 0`
⇒ `a - (bc^2)/x^2 = 0`
⇒ `x = - c sqrt(b/a)`
Also, ``
`(d^2S)/(dx^2)]_("at" x = csqrt(b/a)) = (2bc^2)/(c^3(b/a)^(3//2)) > 0`
∴ S = ax + by is minimum at `x = csqrt(b/a)`
⇒ Minimum value of `S = a xx csqrt(b/a) + b xx c^2/(csqrt(b/a))`
= `csqrt(ab) + csqrt(ab)`
= `2csqrt(ab)`
∴ Minimum value of ax + by, where xy = c2 is `2csqrt(ab)`.
APPEARS IN
संबंधित प्रश्न
Differentiate \[\sqrt{\frac{1 + \sin x}{1 - \sin x}}\] ?
Differentiate \[\sin \left( \frac{1 + x^2}{1 - x^2} \right)\] ?
Differentiate \[\cos^{- 1} \left\{ 2x\sqrt{1 - x^2} \right\}, \frac{1}{\sqrt{2}} < x < 1\] ?
Differentiate \[\tan^{- 1} \left( \frac{a + x}{1 - ax} \right)\] ?
Differentiate \[\tan^{- 1} \left( \frac{\sqrt{x} + \sqrt{a}}{1 - \sqrt{xa}} \right)\] ?
Differentiate \[\tan^{- 1} \left( \frac{x - a}{x + a} \right)\] ?
If \[y = \tan^{- 1} \left( \frac{2x}{1 - x^2} \right) + \sec^{- 1} \left( \frac{1 + x^2}{1 - x^2} \right), x > 0\] ,prove that \[\frac{dy}{dx} = \frac{4}{1 + x^2} \] ?
If \[y = \sin^{- 1} \left( 6x\sqrt{1 - 9 x^2} \right), - \frac{1}{3\sqrt{2}} < x < \frac{1}{3\sqrt{2}}\] \[\frac{dy}{dx} \] ?
Differentiate \[{10}^\left( {10}^x \right)\] ?
Differentiate \[\left( \tan x \right)^{1/x}\] ?
find \[\frac{dy}{dx}\] \[y = \frac{\left( x^2 - 1 \right)^3 \left( 2x - 1 \right)}{\sqrt{\left( x - 3 \right) \left( 4x - 1 \right)}}\] ?
Find \[\frac{dy}{dx}\] \[y = \left( \tan x \right)^{\log x} + \cos^2 \left( \frac{\pi}{4} \right)\] ?
Find \[\frac{dy}{dx}\] \[y = x^{\log x }+ \left( \log x \right)^x\] ?
If \[x^{13} y^7 = \left( x + y \right)^{20}\] prove that \[\frac{dy}{dx} = \frac{y}{x}\] ?
If \[y = x \sin \left( a + y \right)\] , prove that \[\frac{dy}{dx} = \frac{\sin^2 \left( a + y \right)}{\sin \left( a + y \right) - y \cos \left( a + y \right)}\] ?
If \[y = \log\frac{x^2 + x + 1}{x^2 - x + 1} + \frac{2}{\sqrt{3}} \tan^{- 1} \left( \frac{\sqrt{3} x}{1 - x^2} \right), \text{ find } \frac{dy}{dx} .\] ?
\[y = \left( \sin x \right)^{\left( \sin x \right)^{\left( \sin x \right)^{. . . \infty}}} \],prove that \[\frac{y^2 \cot x}{\left( 1 - y \log \sin x \right)}\] ?
If \[\frac{dy}{dx}\] when \[x = a \cos \theta \text{ and } y = b \sin \theta\] ?
Find \[\frac{dy}{dx}\] when \[x = \frac{2 t}{1 + t^2} \text{ and } y = \frac{1 - t^2}{1 + t^2}\] ?
Differentiate (log x)x with respect to log x ?
If \[\pi \leq x \leq 2\pi \text { and y } = \cos^{- 1} \left( \cos x \right), \text { find } \frac{dy}{dx}\] ?
If \[y = \sin^{- 1} \left( \frac{2x}{1 + x^2} \right)\] write the value of \[\frac{dy}{dx}\text { for } x > 1\] ?
The differential coefficient of f (log x) w.r.t. x, where f (x) = log x is ___________ .
If \[f\left( x \right) = \left| x - 3 \right| \text { and }g\left( x \right) = fof \left( x \right)\] is equal to __________ .
Find the second order derivatives of the following function sin (log x) ?
If y = e−x cos x, show that \[\frac{d^2 y}{d x^2} = 2 e^{- x} \sin x\] ?
If y = tan−1 x, show that \[\left( 1 + x^2 \right) \frac{d^2 y}{d x^2} + 2x\frac{dy}{dx} = 0\] ?
If y = sin (log x), prove that \[x^2 \frac{d^2 y}{d x^2} + x\frac{dy}{dx} + y = 0\] ?
If y = (cot−1 x)2, prove that y2(x2 + 1)2 + 2x (x2 + 1) y1 = 2 ?
