MCQ
If $x$ satisfies the equation $\left( {\int\limits_0^1 {\frac{{dt}}{{{t^2} + 2t\cos \alpha + 1}}} } \right)\,{x^2}$ $-$ $\,\left( {\int\limits_{ - 3}^3 {\frac{{{t^2}\sin 2t}}{{{t^2} + 1}}\,dt} } \right)\,x$ $-$ $2$ $ =$ $ 0 (0 < \alpha < \pi ), $ then the value $x$ is
- A$±$ $\sqrt {\frac{\alpha }{{2\sin \alpha }}} $
- B$±$ $\sqrt {\frac{{2\sin \alpha }}{\alpha }} $
- C$± $ $\sqrt {\frac{\alpha }{{\sin \alpha }}} $
- ✓$±$ $2\,\sqrt {\frac{{\sin \alpha }}{\alpha }} $