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Question 6(x-xvii), Exercise 1.4

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Question 10, Exercise 1.2: 11 Hits, Last modified: 17 months ago; = \sqrt{13}.$$ As required. GOOD ====Question 10(ii)==== For $z_{1}=-3+2 i$ and $z_{2}=1-3 i$ verify:... ne{z_2}} = -\frac{9}{10} + \frac{7}{10}i.\,\, -- (ii)$$ From (i) and (ii), we have \[ \overline{\left( \frac{z_1}{z_2} \right)} = \frac{\overline{z_1}}{\o... overline{z_1}\,\, \overline{z_2} & = 3 - 11i. -- (ii) \end{align} From (i) and (ii), we have \[ \ov
Question 3, Exercise 1.2: 3 Hits, Last modified: 17 months ago; a+i(0)=a$$ This gives $z$ is real. ====Question 3(ii)==== Prove that for $z \in \mathbb{C}$. $\dfrac{z... e $$z^2=x^2 \quad \text{ or } \quad z^2=-y^2. ...(ii)$$ From (i) and (ii), we have $$(\overline{z})^{2}=z^{2}$$ Conversly, suppose that \begin{align}&(\ov
Question 2, Exercise 1.2: 2 Hits, Last modified: 17 months ago; oved $$(z_1 z_3) (z_2 z_4)=z_3 (z_1 z_2) z_4 ... (ii)$$ From (i) and (ii), we have the required result. **Remark:** For any three complex numbers $z_1$,
Question 1, Exercise 1.1: 1 Hits, Last modified: 17 months ago; ot(-1)\\ &=-i.\end{align} GOOD ====Question 1(ii)==== Evaulate ${{\left( -i \right)}^{6}}$. **Sol
Question 2, Exercise 1.1: 1 Hits, Last modified: 17 months ago; +(i2+i4)\\ =&5+i6\end{align} GOOD ====Question 2(ii)==== Write the following complex number in the fo
Question 3, Exercise 1.1: 1 Hits, Last modified: 17 months ago; }{2}-\dfrac{9}{2}i\end{align} GOOD ====Question 3(ii)==== Simplify the following $\dfrac{1+i}{(2+i)^2}
Question 4, Exercise 1.1: 1 Hits, Last modified: 17 months ago; . Hence $x=-2$ and $y=2$. GOOD ====Question 4(ii)==== Find the values of real number $x$ and $y$
Question 6, Exercise 1.1: 1 Hits, Last modified: 17 months ago; $z=4-3 i$, then $\bar{z}=4+3i$. ====Question 6(ii)==== Find the conjugate of the complex number $3
Question 7, Exercise 1.1: 1 Hits, Last modified: 17 months ago; ce $|11+12 i|=\sqrt{265}$. GOOD ====Question 7(ii)==== Find the magnitude of the $(2+3 i)-(2+6 i)$.
Question 1, Exercise 1.2: 1 Hits, Last modified: 17 months ago; implies Re(iz)&=-Im(z)\end{align} ====Question 1(ii)==== Show that for any complex number, $\operator
Question 8, Exercise 1.2: 1 Hits, Last modified: 17 months ago; 5=0, \end{align} as required. GOOD ====Question 8(ii)==== Write $|z-1|=|\bar{z}+i|$ in terms of $x$ an
Question 9, Exercise 1.2: 1 Hits, Last modified: 17 months ago; &= \dfrac{1}{5}. \end{align} GOOD ====Question 9(ii)==== Find real and imaginary parts of $(3-\sqrt{
Question 1, Exercise 1.3: 1 Hits, Last modified: 17 months ago; = &(z + 13i)(z - 13i). \end{align} ====Question 1(ii)==== Factorize the polynomial into linear functio
Question 2, Exercise 1.3: 1 Hits, Last modified: 17 months ago; utioin set=$\{3 \pm \sqrt{7}\}$. ====Question 2(ii)==== Solve the equation by completing square: $-\
Question 3, Exercise 1.3: 1 Hits, Last modified: 17 months ago; n set $=\{ -3 \pm \sqrt{57} \}$. ====Question 3(ii)==== Solve the quadratic equation: $z^{2}-\frac{1
Question 4, Exercise 1.3: 1 Hits, Last modified: 17 months ago
Question 1, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 2, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 3, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 5, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 6(i-ix), Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 7, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 8, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 9, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 10, Exercise 1.4: 1 Hits, Last modified: 17 months ago
Question 1, Review Exercise: 1 Hits, Last modified: 17 months ago
Question 2, Review Exercise: 1 Hits, Last modified: 17 months ago
Question 3, Review Exercise: 1 Hits, Last modified: 17 months ago