Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$. (i) Express $z + w$ in modulus–argument form. (ii) Express $rac{z}{w}$ in the form $x + iy$, where $x$ and $y$ are real numbers. (b) Evaluate $\int_{0}^{1} (3x - 1)\cos(\pi x) \, dx.$ (c) Sketch the region in the Argand diagram where $|z| \leq |2 - 2i|$ and $\frac{\pi}{4} \leq \arg z \leq \frac{\pi}{4}.$ (d) Without the use of calculus, sketch the graph $y = \frac{x^2 - 1}{x^2}$ showing all intercepts. (e) The region enclosed by the curve $y = 6 - y$ and the x-axis is rotated about the x-axis to form a solid. Using the method of cylindrical shells, or otherwise, find the volume of the solid.

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Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$ - HSC - SSCE Mathematics Extension 2 - Question 11 - 2014 - Paper 1

Question 11

Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$. (i) Express $z + w$ in modulus–argument form. (ii) Express $rac{z}{w}$ in the form $x + iy$, where $x$... show full transcript

Worked Solution & Example Answer:Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$ - HSC - SSCE Mathematics Extension 2 - Question 11 - 2014 - Paper 1

Step 1

Express $z + w$ in modulus–argument form

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Answer

To express $z + w$ :

Calculate $z + w$ : $z + w = (-2 - 2i) + (3 + i) = 1 - i.$
Find the modulus:
$|z + w| = \sqrt{1^2 + (-1)^2} = \sqrt{2}.$
Find the argument:
$\arg(z + w) = \tan^{-1}\left(\frac{-1}{1}\right) = -\frac{\pi}{4}.$
Thus, the modulus–argument form is:
$$\sqrt{2}\left(\cos\left(-\frac{\pi}{4}\right) + i\sin\left(-\frac{\pi}{4}\right)\right).$

Step 2

Express $\frac{z}{w}$ in the form $x + iy$

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Answer

To find $\frac{z}{w}$ :

Compute: $\frac{-2 - 2i}{3 + i} = \frac{(-2 - 2i)(3 - i)}{(3 + i)(3 - i)} = \frac{-6 + 2 - 6i - 2i}{9 + 1} = \frac{-4 - 8i}{10}.$
Simplify: $\frac{z}{w} = -0.4 - 0.8i.$

Thus, in the form $x + iy$ , we have: $-0.4 - 0.8i.$

Step 3

Evaluate $\int_{0}^{1} (3x - 1)\cos(\pi x) \, dx$

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Answer

To evaluate the integral:

We can use integration by parts where: Let: $u = (3x - 1) \, \Rightarrow \, du = 3 \, dx,$
$dv = \cos(\pi x) \, dx \Rightarrow \, v = \frac{1}{\pi}\sin(\pi x).$
Thus: $\int u \, dv = uv - \int v \, du$
Then substituting: $= (3x-1) \frac{1}{\pi} \sin(\pi x) \bigg|_{0}^{1} - \int \sin(\pi x) \cdot 3 \, dx$
After solving the above and integrating:
- At $x = 1$ , this gives $0$ since $sin(\pi) = 0$ .
- At $x = 0$ , this gives $0$ since $sin(0) = 0$ .
Therefore: $= -\frac{3}{\pi}[-\cos(\pi x)]\bigg|_0^1\rightarrow -\frac{3}{\pi}[-(-1-1)] = \frac{6}{\pi}.$

Step 4

Sketch the region in the Argand diagram where $|z| \leq |2 - 2i|$ and $\frac{\pi}{4} \leq \arg z \leq \frac{\pi}{4}$

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Answer

To sketch the region:

Calculate the modulus: $|2 - 2i| = \sqrt{2^2 + (-2)^2} = \sqrt{8} = 2\sqrt{2}.$
The inequality $|z| \leq 2\sqrt{2}$ describes a disk of radius $2\sqrt{2}$ centered at the origin.
The arguments indicate that $z$ lies in the sector of the disk between the angles $\frac{\pi}{4}$ and $\frac{\pi}{4}$ , effectively forming a wedge.
Sketching both will show a circular sector from the origin out to radius $2\sqrt{2}$ .

Step 5

Without the use of calculus, sketch the graph $y = \frac{x^2 - 1}{x^2}$ showing all intercepts

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Answer

To sketch the graph:

Identify intercepts:
- X-intercepts occur when $y = 0$ : $\frac{x^2 - 1}{x^2} = 0 \Rightarrow x^2 - 1 = 0 \Rightarrow x = \pm 1.$
- Y-intercept occurs at $x = 0$ : $y = \frac{0 - 1}{0} \text{ (undefined)}$
Asymptote Analysis:
- As $x \rightarrow \pm \infty$ , $y \rightarrow 1.$
- Vertical asymptote at $x = 0$ since the denominator is $0$ .
Sketch the graph noting the intercepts and asymptotic behavior.

Step 6

Using the method of cylindrical shells, or otherwise, find the volume of the solid

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Answer

To find the volume:

The region bounded by the curve $y = 6 - y$ and the x-axis forms the shape. Solving for $y$ gives $y = 3$ (the intersection).
The volume of revolution using cylindrical shells is given by: $V = 2\pi \int_{a}^{b} x(\text{height}) \, dx$ where height is $h = 6 - y$ .
Integrate:
- Set up the integral, integrating bounds are determined by intercepts.
Calculate to find the volume of the solid.

Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$ - HSC - SSCE Mathematics Extension 2 - Question 11 - 2014 - Paper 1

Worked Solution & Example Answer:Consider the complex numbers $z = -2 - 2i$ and $w = 3 + i$ - HSC - SSCE Mathematics Extension 2 - Question 11 - 2014 - Paper 1

Express $z + w$ in modulus–argument form

Express $\frac{z}{w}$ in the form $x + iy$

Evaluate $\int_{0}^{1} (3x - 1)\cos(\pi x) \, dx$

Sketch the region in the Argand diagram where $|z| \leq |2 - 2i|$ and $\frac{\pi}{4} \leq \arg z \leq \frac{\pi}{4}$

Without the use of calculus, sketch the graph $y = \frac{x^2 - 1}{x^2}$ showing all intercepts

Using the method of cylindrical shells, or otherwise, find the volume of the solid

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