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- Question 1, Exercise 1.4
- of Question 1 of Exercise 1.4 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... kistan. =====Question 1(i)===== Write a complex number $2+i 2 \sqrt{3}$ in polar form. ** Solution. ** ... ) = \frac{\pi}{3}. \end{align} Since the complex number \( 2 + i 2 \sqrt{3} \) lies in the first quadrant... ==Question 1(ii)===== Write the following complex number $3-i \sqrt{3}$ in polar form. ** Solution. ** L
- Question 6(i-ix), Exercise 1.4
- stion 6(i-ix) of Exercise 1.4 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... =====Question 6(i)===== Write a given complex number in the algebraic form: $\sqrt{2}\left(\cos 315^{\... n} =====Question 6(ii)===== Write a given complex number in the algebraic form: $5\left(\cos 210^{\circ}+i... } =====Question 6(iii)===== Write a given complex number in the algebraic form: $2\left(\cos \dfrac{3 \pi}
- Question 2, Exercise 1.1
- of Question 2 of Exercise 1.1 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... ====Question 2(i)==== Write the following complex number in the form $x+iy$: $(3+2i)+(2+4i)$ ** Solution.... ===Question 2(ii)==== Write the following complex number in the form $x+iy$: $(4+3i)-(2+5i)$ **Solution.*... ==Question 2(iii)==== Write the following complex number in the form $x+iy$: $(4+7i)+(4-7i)$ **Solution.*
- Question 6(x-xvii), Exercise 1.4
- ion 6(x-xvii) of Exercise 1.4 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... . =====Question 6(x)===== Write a given complex number in the algebraic form: $7 \sqrt{2}\left(\cos \dfr... // =====Question 6(xi)===== Write a given complex number in the algebraic form: $10 \sqrt{2}\left(\cos \df... =====Question 6(xii)===== Write a given complex number in the algebraic form: $2\left(\cos\dfrac{5\pi}{2
- Question 1, Review Exercise
- Question 1 of Review Exercise of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... === Chose the correct option. i. Every real number is also a number. * (a) natural * (b) integer * %%(c)%% complex * (d) rational \\ <btn... ">%%(c)%%: complex</collapse> ii. Every complex number has $\operatorname{part}(\mathrm{s})$. * (a
- Question 2, Exercise 1.2
- of Question 2 of Exercise 1.2 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... ion 2==== Use the algebraic properties of complex numbers to prove that $$ \left(z_{1} z_{2}\right)\left(z... quired result. **Remark:** For any three complex numbers $z_1$, $z_2$ and $z_3$, we have $$z_1 (z_2 z_3) ... $$ Logically, z_1 z_2 z_3 has no meaning as three number cannot be multiplies simultanously, but associate
- Exercise 1.1 (Solutions)
- lated to sum, product and division of the complex numbers. **Question 1.** Evaluate :\\ (i) ${{i}^{31}}$ ... 1]] **Question 2.** Write the following complex number in the form $x+iy$:\\ (i) $(3+2i)+(2+4i)$ (ii) $(... tion 3]] **Question 4.** Find the values of real number $x$ and $y$ in each of the following:\\ (i) $(2+3... n: Question 4]] **Question 5.** Find the complex number $z$ if $4z-3\bar{z}=\dfrac{1-18i}{2-i}$\\ [[math-
- Question 4, Exercise 1.1
- of Question 4 of Exercise 1.1 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... . ====Question 4(i)==== Find the values of real number $x$ and $y$ in each of the following: $(2+3i)x+(1... ====Question 4(ii)==== Find the values of real number $x$ and $y$ in each of the following: $\dfrac{x}{... ====Question 4(iii)==== Find the values of real number $x$ and $y$ in each of the following: $\dfrac{x}{
- Question 6, Exercise 1.1
- of Question 6 of Exercise 1.1 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... estion 6(i)==== Find the conjugate of the complex number $4-3 i$. **Solution.** Given: $z=4-3 i$, then $... stion 6(ii)==== Find the conjugate of the complex number $3 i+8$. **Solution.** Do Yourself ====Question 6(iii)==== Find the conjugate of the complex number $2+\sqrt{\dfrac{-1}{5}}$. **Solution.** Given:
- Exercise 1.2 (Solutions)
- ion related to real and imaginary part of complex numbers, modulus and conjugate of the complex numbers. **Question 1.** Show that for any complex number :\\ (i) $\operatorname{Re}(i z)=-\operatorname{Im}(z)... tion 2.** Use the algebraic properties of complex numbers to prove that $$\left(z_{1} z_{2}\right)\left(z_
- Exercise 1.4 (Solutions)
- the question related to polar form of the complex numbers. **Question 1.** Write the following complex number in polar form.\\ (i) $2+i 2 \sqrt{3}$\\ (ii) $3-i ... 1]] **Question 2.** Write the following complex number in rectangular form.\\ (i) $\left(\cos \dfrac{\pi... **Question 6.** Write a following given complex number in the algebraic form:\\ (i) $\sqrt{2}\left(\cos
- Question 1, Exercise 1.2
- of Question 1 of Exercise 1.2 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... ====Question 1(i)==== Show that for any complex number, $\operatorname{Re}(i z)=-\operatorname{Im}(z)$. ... ====Question 1(ii)==== Show that for any complex number, $\operatorname{Im}(i z)=\operatorname{Re}(z)$.
- Question 2, Exercise 1.4
- of Question 2 of Exercise 1.4 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... stan. =====Question 2(i)===== Write the complex number $\left(\cos \dfrac{\pi}{6}+i \sin \dfrac{\pi}{6}\... form. =====Question 2(ii)===== Write the complex number $\dfrac{\cos \dfrac{\pi}{6} - i \sin \dfrac{\pi}{
- Question 5, Exercise 1.1
- of Question 5 of Exercise 1.1 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... d, Pakistan. ====Question 5==== Find the complex number $z$ if $4z-3\bar{z}=\dfrac{1-18i}{2-i}$ **Soluti
- Question 5, Exercise 1.2
- of Question 5 of Exercise 1.2 of Unit 01: Complex Numbers. This is unit of Model Textbook of Mathematics f... tion 5==== If $z_1$ and $z_2$ are two any complex numbers then prove that $|z_1+z_2|^2-|z_1-z_2|^2=4Re(z_1