Download App

Derivatives — Maths STD 11 Science — Question

CBSE BoardEnglish MediumSTD 11 ScienceMathsDerivatives5 Marks
Question
Differentiate the following from first principle$\tan\text{2x}$

Answer

$\text{f}(\text{x})=\tan\text{2x}$$\text{f}'(\text{x})=\lim_\limits{\text{h}\rightarrow0}\frac{\text{f}(\text{x}+\text{h})-\text{f}(\text{x})}{\text{h}}$
$=\lim_\limits{\text{h}\rightarrow0}\frac{\tan2(\text{x}+\text{h})-\tan2\text{x}}{\text{h}}$
$=\lim_\limits{\text{h}\rightarrow0}\frac{\sin(\text{2x}+\text{2h}-\text{2x})}{\text{h}.\cos(\text{2x}+\text{2h})\cos\text{2x}}\ \Big[\because\tan\text{A}-\tan\text{B}=\frac{\sin\text{A}-\text{B}}{\cos\text{A}.\cos{\text{B}}}\Big]$
$=\lim_\limits{\text{h}\rightarrow0}\frac{\sin2\text{h}}{\text{h}.\cos(\text{2x}+\text{2h})\cos2\text{x}}$
$=\lim_\limits{\text{h}\rightarrow0}\Big(\frac{\sin2\text{h}}{2\text{h}}\Big)\times\frac{1\times2}{\cos(\text{2h}+\text{2x})\cos2\text{x}}$
$=\frac{2}{\cos2\text{x}.\cos2\text{x}}\ \Big[\because\lim_\limits{\text{h}\rightarrow0}\frac{\sin2\text{h}}{2\text{h}}=1\Big]$
$=2\sec^22\text{x}\ \Big[\because\frac{1}{\cos^2\text{x}}=\sec^2\text{x}\Big]$

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "5 Marks Questions" from DerivativesDerivatives — all question typesMaths STD 11 Science question papersCBSE Board STD 11 Science question papersCBSE Board question paper generator

Similar questions

Evaluate the following limit:
$\lim\limits_{\text{x}\rightarrow\frac{3\pi}{2}}\frac{1+\text{cosec}^3\text{x}}{\cot^2\text{x}}$
Show that:$\sin\text{A}\sin(\text{B}-\text{C})+\sin\text{B}\sin(\text{C}-\text{A})+\sin\text{C}\sin(\text{A}-\text{B})=0$
For what value of λ are the three lines 2x - 5y + 3 = 0, 5x - 9y + λ = 0 and x − 2y + 1 = 0 concurrent?
If the term from x in the expansion of $\Big(\sqrt{\text{x}}-\frac{\text{k}}{\text{x}^{2}}\Big)^{10}$ is $405$, find the value of k.
Find the equation of straight line passing through (-2, -7) and having an intercept of length 3 between the straight lines 4x + 3y = 12 and 4x + 3y = 3.
If the distance between the foci of a hyperbola is 16 and its eccentricity is $\sqrt{2}$, then obtain its equation.
Find the numberof observation lying between $\overline{\text{X}}-\text{M.D. }$and $\overline{\text{X}}+\text{M.D. }$ is the mean deviation from the mean.
$22, 24, 30, 27, 29, 31, 25, 28, 41, 42$
In the following match each item given under the $\text{column}\  C_1$ to its correct answer given under the $\text{column}\  C_2$:
  $\text{column}\  C_1$   $\text{column}\  C_2$
$(a)$ $\sin(\text{x + y})\sin\text{x}-\text{y}$ $(i)$ $\cos^2\text{x}-\sin^2\text{y}$
$(b)$ $\cos(\text{x + y})\cos(\text{x}-\text{y})$ $(ii)$ $\frac{1-\tan\theta}{1+\tan\theta}$
$(c)$ $\cot\Big(\frac{\pi}{4}+\theta\Big)$ $(iii)$ $\frac{1+\tan\theta}{1-\tan\theta}$
$(d)$ $\tan\Big(\frac{\pi}{4}+\theta\Big)$ $(iv)$ $\sin^2\text{x}-\sin^2\text{y}$
Prove the following identities:
$\frac{\cos\text{x}}{1-\sin\text{x}}=\frac{1+\cos\text{x}+\sin\text{x}}{1+\cos\text{x}-\sin\text{x}}$
Evaluate the following limit:
$\lim\limits_{\text{x}\rightarrow1}\frac{\sqrt{5\text{x}-4}-\sqrt{\text{x}}}{\text{x}^3-1}$