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Question
Show that among all positive numbers x and y with x2 + y2 =r2, the sum x+y is largest when x=y=r \[\sqrt{2}\] .
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Solution
\[\text { Here }, \]
\[ x^2 + y^2 = r^2 \]
\[ \Rightarrow y = \sqrt{r^2 - x^2} ................ \left( 1 \right)\]
\[\text { Now, }\]
\[Z = x + y\]
\[ \Rightarrow Z = x + \sqrt{r^2 - x^2} .............\left[ \text { From eq. } \left( 1 \right) \right]\]
\[ \Rightarrow \frac{dZ}{dx} = 1 + \frac{\left( - 2x \right)}{2\sqrt{r^2 - x^2}}\]
\[\text { For maximum or minimum values of Z, we must have }\]
\[\frac{dZ}{dx} = 0\]
\[ \Rightarrow 1 + \frac{\left( - 2x \right)}{2\sqrt{r^2 - x^2}} = 0\]
\[ \Rightarrow 2x = 2\sqrt{r^2 - x^2}\]
\[ \Rightarrow x = \sqrt{r^2 - x^2}\]
\[\text { Squaring both the sides, we get }\]
\[ \Rightarrow x^2 = r^2 - x^2 \]
\[ \Rightarrow 2 x^2 = r^2 \]
\[ \Rightarrow x = \frac{r}{\sqrt{2}}\]
\[\text { Substituting the value of x in eq. } \left( 1 \right), \text { we get }\]
\[y = \sqrt{r^2 - x^2}\]
\[ \Rightarrow y = \sqrt{r^2 - \left( \frac{r}{\sqrt{2}} \right)^2}\]
\[ \Rightarrow y = \frac{r}{\sqrt{2}}\]
\[\frac{d^2 z}{d x^2} = \frac{- \sqrt{r^2 - x^2} + \frac{x\left( - x \right)}{\sqrt{r^2 - x^2}}}{r^2 - x^2}\]
\[ \Rightarrow \frac{d^2 z}{d x^2} = \frac{- r^2 + x^2 - x^2}{\left( r^2 - x^2 \right)^\frac{3}{2}}\]
\[ \Rightarrow \frac{d^2 z}{d x^2} = \frac{- r^2}{r^3} \times 2\sqrt{2}\]
\[ \Rightarrow \frac{d^2 z}{d x^2} = \frac{- 2\sqrt{2}}{r} < 0\]
\[\text { So, z = x + y is maximum when x = y } = \frac{r}{\sqrt{2}} . \]
\[\text { Hence proved } .\]
