Download App

Transformation Formulae — MATHS STD 11 Science — Question

Rajasthan BoardEnglish MediumSTD 11 ScienceMATHSTransformation Formulae5 Marks
Question
Prove that:
$\frac{\sin11\text{A}\sin\text{A}+\sin7\text{A}\sin3\text{A}}{\cos11\text{A}\sin\text{A}+\cos7\text{A}\sin3\text{A}}=\tan8\text{A}$

Answer

We have,
$\text{LHS}=\frac{\sin11\text{A}\sin\text{A}+\sin7\text{A}\sin3\text{A}}{\cos11\text{A}\sin\text{A}+\cos7\text{A}\sin3\text{A}}$
$=\ \frac{2(\sin11\text{A}\sin\text{A}+\sin7\text{A}\sin3\text{A})}{2(\cos11\text{A}\sin\text{A}+\cos7\text{A}\sin3\text{A})}$
$=\ \frac{2\sin11\text{A}\sin\text{A}+2\sin7\text{A}\sin3\text{A}}{2\sin11\text{A}\sin\text{A}+2\cos7\text{A}\sin3\text{A}}$
$=\ \frac{\cos(11\text{A}-\text{A})-\cos(11\text{A}+\text{A})+\cos(7\text{A}-3\text{A})-\cos(7\text{A}+3\text{A})}{\sin(11\text{A}+\text{A})-\sin(11\text{A}-\text{A})+\sin(7\text{A}+3\text{A})-\sin(7\text{A}-3\text{A})]}$
$=\ \frac{\cos10\text{A}-\cos12\text{A}+\cos4\text{A}-\cos10\text{A}}{\sin12\text{A}-\sin10\text{A}+\sin10\text{A}-\sin4\text{A}}$
$=\ \frac{-(\cos12\text{A}-\cos4\text{A})}{\sin12\text{A}-\sin4\text{A}}$
$=\ \frac{-\Big[2\sin\Big(\frac{12\text{A}+4\text{A}}{2}\Big)\sin\Big(\frac{12\text{A}-4\text{A}}{2}\Big)\Big]}{2\sin\Big(\frac{12\text{A}-4\text{A}}{2}\Big)\cos\Big(\frac{12\text{A}+4\text{A}}{2}\Big)}$
$=\ \frac{2\sin8\text{A}\sin4\text{A}}{2\sin4\text{A}\cos8\text{A}}$
$=\ \frac{\sin8\text{A}}{\cos8\text{A}}$
$=\ \tan8\text{A}$
$=\ \text{RHS}$
$\therefore\ \frac{\sin11\text{A}\sin\text{A}+\sin7\text{A}\sin3\text{A}}{\cos11\text{A}\sin\text{A}+\cos7\text{A}\sin3\text{A}}=\tan8\text{A}$ Hence proved.

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 Transformation FormulaeTransformation Formulae — all question typesMATHS STD 11 Science question papersRajasthan Board STD 11 Science question papersRajasthan Board question paper generator

Similar questions

Prove the following by the principle of mathematical induction:
72n + 23n-3.3n-1 is divisible of 25 for all $\text{n}\in\text{N}$
Differentiate the following from first principle

$\cos\sqrt{\text{x}}$

Evaluate the following limit:
$\lim\limits_{\text{x}\rightarrow{1}}\frac{1-\text{x}^2}{\sin2\pi\text{ x}}$
Evaluate the following limit:
$\lim\limits_{\text{x}\rightarrow{{\pi}}}\frac{1-\sin\frac{\text{x}}{2}}{\cos\frac{\text{x}}2\big(\cos\frac{\text{x}}{2}-\sin\frac{\text{x}}{4}\big)}$
Evaluate the following limits.
$\lim\limits_{\text{x} \rightarrow 0}\frac{(\sin(\alpha+\beta)\text{x}+\sin(\alpha-\beta)\text{x}+\sin2\alpha\cdot\text{x}}{\cos2\beta\text{x}-\cos2\alpha\text{x}}$ 
$\text{If}\ \text{y}\sin\phi=\text{x}\sin(2\theta+\phi),$ prove that $(\text{x+y})\cot(\theta+\phi)=(\text{y}-\text{x})\cot\theta$
If $\sin(\theta+\alpha)=\text{a}$ and $\sin(\theta+\beta)=\text{b},$ then prove that $\cos2(\alpha-\beta)-4\text{ab}\cos(\alpha-\beta)=1-2\text{a}^2-2\text{b}^2$
[Hint: Express $\cos(\alpha-\beta)=\cos((\theta+\alpha)-(\theta+\beta))$]
In each of the following find the equation of the hyperbola satisfying the given conditions
vertices $(0, \pm6)$ $\text{e}=\frac{5}{3}$ [NCERT EXEMPLAR]
The mid-points of the sides of a triangle are (5, 7, 11), (0, 8, 5) and (2, 3, -1). Find its vertices.
A man accepts a position with an initial salary of ₹ 5200 per month. It is understood that he will receive an automatic increase of ₹ 320 in the very next month and each month thereafter.
  1. Find his salary for the tenth month.
  2. What is his total earnings during the first year?