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प्रश्न
Using Lagrange's mean value theorem, prove that (b − a) sec2 a < tan b − tan a < (b − a) sec2 b
where 0 < a < b < \[\frac{\pi}{2}\] ?
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उत्तर
Consider, the function
\[f\left( x \right) = \tan x, x \in \left[ a, b \right], 0 < a < b < \frac{\pi}{2}\]
Clearly, \[f\left( x \right)\] is continuous on \[\left[ a, b \right]\] and derivable on \[\left( a, b \right)\] .
Thus, both the conditions of Lagrange's theorem are satisfied.
Consequently,\[c \in \left( a, b \right)\] such that \[f'\left( c \right) = \frac{f\left( b \right) - f\left( a \right)}{b - a}\] .
Now,
\[f\left( x \right) = \tan x\]\[\Rightarrow\] \[f'\left( x \right) = se c^2 x\],\[f\left( a \right) = \tan a, f\left( b \right) = \tan b\]
\[\therefore\] \[f'\left( c \right) = \frac{f\left( b \right) - f\left( a \right)}{b - a}\]\[\Rightarrow\] \[se c^2 c = \frac{\tan b - \tan a}{b - a} . . . \left( 1 \right)\]
Now,
\[c \in \left( a, b \right)\]
\[ \Rightarrow a < c < b\]
\[ \Rightarrow se c^2 a < se c^2 c < se c^2 b \left[ \because se c^2 x \text {b is increasing in } \left( 0, \frac{\pi}{2} \right) \right]\]
\[ \Rightarrow se c^2 a < \frac{\tan b - \tan a}{b - a} < se c^2 b \left[ \text { from } \left( 1 \right) \right]\]
\[ \Rightarrow \left( b - a \right)se c^2 a < \tan b - \tan a < \left( b - a \right)se c^2 b\]
Hence proved.
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