Complex Cube Root Of Unity (1 Viewer)

ADrew · Jan 28, 2012

Hey all

, can't figure out these two questions, was wondering if some kind person (spiral im looking at you

) may help

:

1) If 1, w, w^2 are the three cube roots of unity, prove that:
(a+b+c)(a+bw+cw^2)(a+bw^2+cw)=a^3+b^3+c^3-3abc

And I know the following isnt a root of unity type question, but anyway:

2) Find x, where 0<=x<=2pi, if (3+2i sinx)/(1-2i sinx) is purely imaginary.

Thankyou for any help in advanced!!

IamBread · Jan 28, 2012

Haven't done question 1, but here's 2.

$\frac{3+2isinx}{1-2isinx}$

$$Realising the denominator $ \frac{3+2isinx}{1-2isinx} \times \frac{1+2isinx}{1+2isinx}$

$=\frac{3-4sin^2x + 8isinx}{1+4sin^2x}$

$For it to be purely imaginary, $ 3-4sin^2x $ must equal 0$

$3-4sin^2x=0$

$sinx=\pm\frac{\sqrt{3}}{2}$

$x = \frac{\pi}{3}, \frac{2\pi}{3}, \frac{4\pi}{3}, \frac{5\pi}{3}$

Will now attempt the next one.

SpiralFlex · Jan 28, 2012

What's up duck?! (bugs bunny!) *RAWR!*

Want the solution or a hint?

ADrew · Jan 28, 2012

Thanks IamBread! SpiralFlex, just post whatever you feel.

IamBread · Jan 28, 2012

Spiral do you know how to do the plusminus symbol?

SpiralFlex · Jan 28, 2012

ADrew said:
Thanks IamBread! SpiralFlex, just post whatever you feel.

$\fbox{Spoiler alert if IamBread doesn't want to see this yet.}$

$First step is to notice a few things.$

$A method of doing this would be expanding smartly, what I mean by that is we wouldn't want to expand everything straight away.$

$Our instincts tell us to expand the last two brackets.$

$(a+bw+cw^2)(a+bw^2+cw)=a^2+abw^2+acw+abw+b^2w^3+bcw^2+acw^2+bcw^4+c^2w^3$

$$Straight away eliminate any$ \;w^3. \;$Since$\; w^3=1.$

$(a+bw+cw^2)(a+bw^2+cw)=a^2+abw^2+acw+abw+b^2+bcw^2+acw^2+bcw^4+c^2$

$It's beginning to look a lot like Christmas.$

$So our next instinct is that we have actually found one part of the solution \;(a^2+b^2+c^2)$

$So I will shove that aside and keep that in mind.$

$=a^2+b^2+c^2+ab(w^2+w)+ac(w^2+w)+bc(w^2+w^4)$

$=a^2+b^2+c^2-ab-ac-bc$

Note: $w^4=w$

$Our next step is to expand the whole brackets with the other terms,$

$So,$$

$(a+b+c)(a^2+b^2+c^2-ab-ac-bc)$

$This of course gives us a famous identity of,$

$a^3+b^3+c^3-3abc$

ADrew · Jan 28, 2012

Thanks so much! Appreciate your response

BTW rep to both of you

IamBread · Jan 28, 2012

SpiralFlex said:
$\fbox{Spoiler alert if IamBread doesn't want to see this yet.}$

Haha, no I had got it, was just looking for a better way, did not want to latex it lol

SpiralFlex · Jan 28, 2012

I'm going to sleep now, hopefully i'll get some study done once I wake up and not play games.

Be back at 6.

To infinity and beyond!

Swoosh!

RealiseNothing · Jan 28, 2012

Alternatively:

The 3 roots are equally spaced around the unit circle (any complex circle for that matter).

So the first root = 1, second root (w) = cis120 , and third root (w^2) = cis240

Working out each root and putting it into a+bi form:

cis120 = -1/2 + (rt3)i/2 = w

cis240 = -1/2 - (rt3)i/2 = w^2

Substitute these values into the original equation. Solve the last two brackets first as they are more complicated.

We can actually do a little tampering with the signs of the roots, so that w = w^2. The imaginary part of w is actually the co-efficient of (b-c) and the imaginary part of w^2 is the co-efficient of (c-b). So by taking out a negative from (c-b), we get the negative of the imaginary part of w^2 as the co-efficient of (b-c). But the negative of the imaginary part of w^2 is w. So now w=w^2.

This leaves you with the two last brackets as just a difference of two squares. When you solve this it simplifies to a^2 + b^2 + c^2 - ab - ac - bc. All you need to do now is multiply this with the very first bracket (a+b+c) which gives the answer of:

a^3 + b^3 + c^3 - 3abc.

QED.

This method cancels out all the 'i' from the equation when you use the difference of two squares as they just become -1, leaving you with only a, b, and c to work with. More of an algebraic approach.

ADrew · Jan 28, 2012

Just one more thing, but why does w^4=w ? I realise this may be obvious, but I cant see it?
Also, thanks for the response RealiseNothing

SpiralFlex · Jan 28, 2012

ADrew said:
Just one more thing, but why does w^4=w ? I realise this may be obvious, but I cant see it?

$w^3=1$

$w*w^3=1*w$

$\therefore w^4=w$

kingkong123 · Jan 28, 2012

ADrew said:
Just one more thing, but why does w^4=w ? I realise this may be obvious, but I cant see it?

lol w^4 = (w^3) x w
but w^3 = 1
therefore w^4 = 1 x w
= w

RealiseNothing · Jan 28, 2012

ADrew said:
Just one more thing, but why does w^4=w ? I realise this may be obvious, but I cant see it?

The roots of a complex number can be graphed around a circle on the argand diagram right? And you know how they are equally spaced around it?

Well when you get to the last root (in this case w^2), you go back to the beginning where your first root is, so w^3=1.

Then you repeat the cycle, so w^4=w, w^5=w^2, and so on.

SpiralFlex · Jan 28, 2012

I'm going for my nap nap now.

kingkong123 · Jan 28, 2012

SpiralFlex said:
$w^3=1$

$w*w^3=1*w$

$\therefore w^4=w$

beaten to it :/

ADrew · Jan 28, 2012

Lolz, basic algebra escaped my mind for a moment there (facepalm) Anyway thanks again

Nooblet94 · Jan 28, 2012

IamBread said:
Spiral do you know how to do the plusminus symbol?

\pm, also the version where minus is on top is \mp

Carrotsticks · Jan 28, 2012

IamBread said:
Spiral do you know how to do the plusminus symbol?

\pm

IamBread · Jan 28, 2012

Carrotsticks said:
\pm

Nooblet94 said:
\pm, also the version where minus is on top is \mp

thanks!

Complex Cube Root Of Unity (1 Viewer)

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