TS EAMCET · Maths · Complex Number
If \(z=\sqrt{2} \sqrt{1+\sqrt{3 i}}\) represents a point \(P\) in the argand plane and \(P\) lies in the third quadrant, then the polar form of \(z\) is
- A \(2\left[\cos \left(\frac{-4 \pi}{3}\right)+i \sin \left(\frac{-4 \pi}{3}\right)\right]\)
- B \(2\left[\cos \left(\frac{-5 \pi}{6}\right)+i \sin \left(\frac{-5 \pi}{6}\right)\right]\)
- C \(2\left[\cos \left(\frac{-\pi}{6}\right)+i \sin \left(\frac{-\pi}{6}\right)\right]\)
- D \(2\left[\cos \left(\frac{-2 \pi}{3}\right)+i \sin \left(\frac{-2 \pi}{3}\right)\right]\)
Answer & Solution
Correct Answer
(B) \(2\left[\cos \left(\frac{-5 \pi}{6}\right)+i \sin \left(\frac{-5 \pi}{6}\right)\right]\)
Step-by-step Solution
Detailed explanation
We have, \[ \begin{aligned} & z=\sqrt{2} \sqrt{1+\sqrt{3} i} \Rightarrow z=\sqrt{2+2 \sqrt{3}} i \\ & z=\sqrt{(\sqrt{3}+i)^2} \quad \Rightarrow z= \pm(\sqrt{3}+i) \end{aligned} \] \(z\) lie in third quadrant…
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