MX2 Marathon (2 Viewers)

sssona09 · Nov 2, 2017

Re: HSC 2018 MX2 Marathon

dan964 said:
Prove by Induction that $\overline{z_1+z_2+\dots + z_n} = \overline{z}_1 +\overline{z}_2 + \dots \overline{z}_n$
is this the question?

yes

sssona09 · Nov 8, 2017

Re: HSC 2018 MX2 Marathon

find z suvh that (Im)z=2 and z^2 is real

thank you

pikachu975 · Nov 8, 2017

Re: HSC 2018 MX2 Marathon

sssona09 said:
find z suvh that (Im)z=2 and z^2 is real

thank you

So let z = x + 2i

(x+2i)^2 = x^2 + 4xi - 4
Since it is real then Im(z^2) = 0
so 4x = 0
x = 0

Hence z = 2i

sssona09 · Nov 8, 2017

Re: HSC 2018 MX2 Marathon

pikachu975 said:
So let z = x + 2i

(x+2i)^2 = x^2 + 4xi - 4
Since it is real then Im(z^2) = 0
so 4x = 0
x = 0

Hence z = 2i

thank you Pikachu!!

sssona09 · Nov 8, 2017

Re: HSC 2018 MX2 Marathon

pikachu975 said:
So let z = x + 2i

(x+2i)^2 = x^2 + 4xi - 4
Since it is real then Im(z^2) = 0
so 4x = 0
x = 0

Hence z = 2i

how about if re(z) is 2Im(z) and z^2-4i is real

I cant get the answer.. the answer is +- (2+i)

1729 · Nov 8, 2017

Re: HSC 2018 MX2 Marathon

sssona09 said:
how about if re(z) is 2Im(z) and z^2-4i is real

I cant get the answer.. the answer is +- (2+i)

$$\noindent Let $z=x+yi$, then $\Re(z)=2\Im(z) \implies x=2y$. Now $z = 2y + yi \implies z^2 - 4i = 3y^2+(4y^2-4)i$. Being real, $4y^2-4=0\implies y=\pm 1 \implies x = \pm 2$. Thus, $z=\pm (2+i)$

Paradoxica · Nov 19, 2017

Re: HSC 2018 MX2 Marathon

Prove the ellipses:

$\frac{(x + k y)^2}{a^2} + \frac{y^2}{b^2} = 1, \frac{x^2}{a^2} + \frac{(kx + y)^2}{b^2} = 1$

where k is an arbitrary real number

have the same area as the ellipse

$\frac{x^2}{a^2} + \frac{y^2}{b^2} = 1$

Kingom · Nov 19, 2017

Re: HSC 2018 MX2 Marathon

Paradoxica said:
Prove the ellipses:

$\frac{(x + k y)^2}{a^2} + \frac{y^2}{b^2} = 1, \frac{x^2}{a^2} + \frac{(kx + y)^2}{b^2} = 1$

have the same area as the ellipse

$\frac{x^2}{a^2} + \frac{y^2}{b^2} = 1$

Continuing on, prove that the area of the ellipse defined by

$\frac{(a x + b y)^2}{p^2} + \frac{(cx + dy)^2}{q^2} = 1$

has area

$\frac{\pi p q}{|ad - bc|}$

Sy123 · Dec 2, 2017

Re: HSC 2018 MX2 Marathon

$\\ $Referring to the diagram above, where the point$ \ P \ $is the intersection of curves$ \ y =x, \ y = \cos x, $ which region is larger in area, $ A_1 $ or $ A_2 $? Prove your answer without any use of a calculator (except for very basic facts like that $ \pi > 3 $ and so on, another exercise is to prove that $ \pi > 3$)$$

Paradoxica · Dec 2, 2017

Re: HSC 2018 MX2 Marathon

Letting the value of the solution to x = cos(x) be r, the following area expressions are obtained through integration:

A₁ = sin(r) - r²/2

A₂ = 1 - sin(r) + r²/2

A₂ - A₁ = 1 - 2sin(r) + r²

r > sin(r) (proof is trivial and left as an exercise)

- 2sin(r) > - 2r

1 - 2sin(r) + r² > 1 - 2r + r² = (1-r)² > 0

A₂ - A₁ > 0

A₂ > A₁

Pakka · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

These pls

sida1049 · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

Pakka said:
These pls
View attachment 34382
View attachment 34381

Change to polar form, apply de Moivre's theorem, done. For all of them.

Pakka · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

Could show me some working pls. Sorry for the trouble

Pakka · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

Never mind, I got it. Cheers, the advice made things easier.

Pakka · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

This one pls

pikachu975 · Dec 6, 2017

Re: HSC 2018 MX2 Marathon

Pakka said:
This one pls
View attachment 34383

Realise the denominator and use De Moivre's at the end to get the n in 2ntheta

CapitalSwine · Dec 14, 2017

Re: HSC 2018 MX2 Marathon

Appreciate some help with this: Find the range of values of |z| and arg(z) for |z-4-4i|=2sqrt(2)

1729 · Dec 15, 2017

Re: HSC 2018 MX2 Marathon

CapitalSwine said:
Appreciate some help with this: Find the range of values of |z| and arg(z) for |z-4-4i|=2sqrt(2)

Sketch the locus of z and note that the modulus and argument of z use the join of the origin to a point on the circle.

CapitalSwine · Dec 28, 2017

Re: HSC 2018 MX2 Marathon

1729 said:
Sketch the locus of z and note that the modulus and argument of z use the join of the origin to a point on the circle.

What is the modulus and argument of z in this case? I got an answer that was different to the one in the textbook.

Sent from my Redmi Note 4 using Tapatalk

altSwift · Jan 10, 2018

Re: HSC 2018 MX2 Marathon

Find an expression for cos^4x in terms of cos4x and cos2x

Edit: The question is from terry lee so I'm guessing it implies that you use 4U complex techniques rather than 3U, I'm not sure if you can even use 3U for this...

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