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Phrases Complex Number PYQ

Phrases PYQ
If ${{x}}_k=\cos \Bigg{(}\frac{2\pi k}{n}\Bigg{)}+i\sin \Bigg{(}\frac{2\pi k}{n}\Bigg{)}$ , then $\sum ^n_{k=1}({{x}}_k)=?$





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Phrases Previous Year PYQ Phrases NIMCET 2023 PYQ

Solution

Sum of Complex Roots of Unity

Given:

\[ x_k = \cos\left(\frac{2\pi k}{n}\right) + i \sin\left(\frac{2\pi k}{n}\right) = e^{2\pi i k/n} \]

Required: Find: \[ \sum_{k=1}^{n} x_k \]

This is the sum of all \( n^\text{th} \) roots of unity (from \( k = 1 \) to \( n \)).

We know: \[ \sum_{k=0}^{n-1} e^{2\pi i k/n} = 0 \] So shifting index from \( k = 1 \) to \( n \) just cycles the same roots: \[ \sum_{k=1}^{n} e^{2\pi i k/n} = 0 \]

✅ Final Answer:   \( \boxed{0} \)

Phrases PYQ
If $|z|<\sqrt{3}-1$, then $|z^{2}+2z cos \alpha|$ is





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Phrases Previous Year PYQ Phrases NIMCET 2019 PYQ

Solution

Let \(r=|z|<\sqrt{3}-1\). Using triangle inequality, \[ |z^{2}+2z\cos\alpha|\le |z|^{2}+2|z||\cos\alpha|\le r^{2}+2r. \] Since \(r<\sqrt{3}-1\), \[ r^{2}+2r<(\sqrt{3}-1)^{2}+2(\sqrt{3}-1)= (3-2\sqrt{3}+1)+2\sqrt{3}-2=2. \] Hence, \[ \boxed{|z^{2}+2z\cos\alpha|<2}. \]

Phrases PYQ
A particle P starts from the point z0=1+2i, where i=√−1 . It moves first horizontally away from origin by 5 units and then vertically away from origin by 3 units to reach a point z1. From z1 the particle moves √2 units in the direction of the vector $\hat{i}+\hat{j}$ and then it moves through an angle $\dfrac{\pi}{2}$ in anticlockwise direction on a circle with centre at origin, to reach a point z2. The point z2 is given by





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Phrases Previous Year PYQ Phrases NIMCET 2019 PYQ

Solution


Phrases PYQ
If $a,b,c$ are the roots of the equation $x^3-3px^2+3qx-1=0$, then the centroid of the triangle with vertices $\left(a,\frac1a\right),\left(b,\frac1b\right),\left(c,\frac1c\right)$ is the point





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Phrases Previous Year PYQ Phrases NIMCET 2008 PYQ

Solution

Centroid $=\left(\dfrac{a+b+c}{3},\dfrac{\frac1a+\frac1b+\frac1c}{3}\right)$ From the equation, $a+b+c=3p$ Also $\dfrac1a+\dfrac1b+\dfrac1c=\dfrac{ab+bc+ca}{abc}=\dfrac{3q}{1}=3q$ Hence centroid $=(p,q)$ Answer: $\boxed{(p,q)}$
Phrases PYQ
The value of $X^4 + 9X^3 + 35X^2 - X + 4$ for $X = -5 + 2\sqrt{-4}$ is





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Phrases Previous Year PYQ Phrases NIMCET 2010 PYQ

Solution

$X = -5 + 4i$ Compute modulus: $|X|^2 = (-5)^2 + 4^2 = 25 + 16 = 41$ Because polynomial is symmetric to complex conjugates, evaluate: $X^4 + 9X^3 + 35X^2 - X + 4 = -160$
Phrases PYQ
If $\omega \ne 1$ is a cube root of unity and $i = \sqrt{-1}$, the value of the determinant $\left|\begin{matrix} 1 & 1+i+\omega^2 & \omega \\ 1-i & -1 & \omega^2 - 1 \\ -i & -i+\omega-1 & -\omega^3 \end{matrix}\right|$ is





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Phrases Previous Year PYQ Phrases NIMCET 2010 PYQ

Solution

Solution: Using $\omega^3 = 1$ and $\omega^2 + \omega + 1 = 0,$ simplify the entries. After row/column reduction and applying cube root identities, the determinant becomes $\omega^2.$

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