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If $$0 < \beta < \alpha < \frac{\pi }{4},\cos \left( {\alpha + \beta } \right) = \frac{3}{5}$$ and $$\cos \left( {\alpha - \beta } \right) = \frac{4}{5}$$ then $$\sin 2\alpha $$ is equal to

A. 1

B. 0

C. 2

D. None of these

Answer : 1

Solution :
Use $$\sin 2\alpha = \sin \left\{ {\left( {\alpha + \beta } \right) + \left( {\alpha - \beta } \right)} \right\}$$
$$\sin 2\alpha = \sin \left( {\alpha + \beta } \right) \cdot \cos \left( {\alpha - \beta } \right) + \cos \left( {\alpha + \beta } \right) \cdot \sin \left( {\alpha - \beta } \right).$$

Releted MCQ Question on
Trigonometry >> Trigonometric Ratio and Identities

Releted Question 1

If $$\tan \theta = - \frac{4}{3},$$ then $$\sin \theta $$ is

A. $$ - \frac{4}{5}{\text{ but not }}\frac{4}{5}$$

B. $$ - \frac{4}{5}{\text{ or }}\frac{4}{5}$$

C. $$ \frac{4}{5}{\text{ but not }} - \frac{4}{5}$$

D. None of these

View Answer

Releted Question 2

If $$\alpha + \beta + \gamma = 2\pi ,$$ then

A. $$\tan \frac{\alpha }{2} + \tan \frac{ \beta }{2} + \tan \frac{\gamma }{2} = \tan \frac{\alpha }{2}\tan \frac{\beta }{2}\tan \frac{\gamma }{2}$$

B. $$\tan \frac{\alpha }{2}\tan \frac{\beta }{2} + \tan \frac{\beta }{2}\tan \frac{\gamma }{2} + \tan \frac{\gamma }{2}\tan \frac{\alpha }{2} = 1$$

C. $$\tan \frac{\alpha }{2} + \tan \frac{ \beta }{2} + \tan \frac{\gamma }{2} = - \tan \frac{\alpha }{2}\tan \frac{\beta }{2}\tan \frac{\gamma }{2}$$

D. None of these

View Answer

Releted Question 3

Given $$A = {\sin ^2}\theta + {\cos ^4}\theta $$ then for all real values of $$\theta $$

A. $$1 \leqslant A \leqslant 2$$

B. $$\frac{3}{4} \leqslant A \leqslant 1$$

C. $$\frac{13}{16} \leqslant A \leqslant 1$$

D. $$\frac{3}{4} \leqslant A \leqslant \frac{{13}}{{16}}$$

View Answer

Releted Question 4

The value of the expression $$\sqrt 3 \,{\text{cosec}}\,{\text{2}}{{\text{0}}^ \circ } - \sec {20^ \circ }$$ is equal to

A. 2

B. $$\frac{{2\sin {{20}^ \circ }}}{{\sin {{40}^ \circ }}}$$

C. 4

D. $$\frac{{4\sin {{20}^ \circ }}}{{\sin {{40}^ \circ }}}$$

View Answer

If $$0 < \beta < \alpha < \frac{\pi }{4},\cos \left( {\alpha + \beta } \right) = \frac{3}{5}$$ and $$\cos \left( {\alpha - \beta } \right) = \frac{4}{5}$$ then $$\sin 2\alpha $$ is equal to

Releted MCQ Question on
Trigonometry >> Trigonometric Ratio and Identities

If $$\tan \theta = - \frac{4}{3},$$ then $$\sin \theta $$ is

If $$\alpha + \beta + \gamma = 2\pi ,$$ then

Given $$A = {\sin ^2}\theta + {\cos ^4}\theta $$ then for all real values of $$\theta $$

The value of the expression $$\sqrt 3 \,{\text{cosec}}\,{\text{2}}{{\text{0}}^ \circ } - \sec {20^ \circ }$$ is equal to

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Trigonometric Ratio and Identities

Practice More MCQ Question on Maths Section

If $$0 < \beta < \alpha < \frac{\pi }{4},\cos \left( {\alpha + \beta } \right) = \frac{3}{5}$$ and $$\cos \left( {\alpha - \beta } \right) = \frac{4}{5}$$ then $$\sin 2\alpha $$ is equal to

Releted MCQ Question on Trigonometry >> Trigonometric Ratio and Identities

If $$\tan \theta = - \frac{4}{3},$$ then $$\sin \theta $$ is

If $$\alpha + \beta + \gamma = 2\pi ,$$ then

Given $$A = {\sin ^2}\theta + {\cos ^4}\theta $$ then for all real values of $$\theta $$

The value of the expression $$\sqrt 3 \,{\text{cosec}}\,{\text{2}}{{\text{0}}^ \circ } - \sec {20^ \circ }$$ is equal to

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Practice More MCQ Question on Maths Section

Releted MCQ Question on
Trigonometry >> Trigonometric Ratio and Identities

Practice More Releted MCQ Question on
Trigonometric Ratio and Identities