Question
$\mathop {\lim }\limits_{y \to 0} \frac{{(x + y)\sec (x + y) - x\sec x}}{y} = $
$ = \mathop {\lim }\limits_{y \to 0} \,\left[ {\frac{x}{y}\,\left\{ {\frac{{\cos x - \cos \,(x + y)}}{{\cos \,(x + y)\,\cos x}}} \right\}} \right] + \mathop {\lim }\limits_{y \to 0} \sec \,(x + y)$
$ = \mathop {\lim }\limits_{y \to 0} \,\left[ {\frac{{x\sin \,\left( {x + \frac{y}{2}} \right)}}{{\cos \,(x + y)\,.\,\,\cos x}}\,.\,\frac{{\sin \,\left( {\frac{y}{2}} \right)}}{{\,\,\,\frac{y}{2}}}} \right] + \sec x$
($cos C -cos D$ के सूत्र का उपयोग करने पर)
$= x\ tan\ x\ sec\ x + sec\ x = sec\ x\ (x\ tan\ x+1).$
वैकल्पिक : $L$- हॉस्पीटल नियम से,
$\mathop {\lim }\limits_{y \to 0} \,\frac{{(x + y)\,\sec \,(x + y) - x\,\sec x}}{y}$
$ = \mathop {\lim }\limits_{y \to 0} \,\frac{{(x + y)\,\sec \,(x + y)\tan \,(x + y) + \sec \,(x + y) - 0}}{1}$
{$x$ को स्थिरांक मानकर $y$ के सापेक्ष अवकलन करने पर}
$ = x\sec x\tan x + \sec x. = \sec x(x\tan x + 1)$
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