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z^6 = -64 URGENT MATH question HELP (1 Viewer)

Mr_Kap

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how would i find the complex roots in z^6=-64.

i know it involves seomthing like r^6(cos(theta)+isin(theta)...and something like k=0,1,2,3,4,5

but i cant remember..


URGENT!!!! need help!!!
 

InteGrand

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how would i find the complex roots in z^6=-64.

i know it involves seomthing like r^6(cos(theta)+isin(theta)...and something like k=0,1,2,3,4,5

but i cant remember..


URGENT!!!! need help!!!
 

Flop21

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Do you not have the mathsoc solutions??

-

Put it in polar form, like this:

z^6 = 64e^(i*Pi+2*k*Pi*i)

Then take each side to the power of 1/6:

z = [64e^(i*Pi+2*k*Pi*i)]^1/6

z = 2e^(i*Pi+2*k*Pi*i)/6

Now we sub in any values into k, say 0..5. (Can someone clarify if we just pick 6 (n) values here?).

to get the roots.

-

Now the second part of this question is usually, factorise into real linear and real irreducible quadratic factors right, so...



So find use the principle arguments only (between -Pi and Pi).

Now grab the conjugate pairs of the factors (Factors of p(z) = (z-root)). The conjugate pairs are the ones which are negatives of each other.

(z-2e^(Pi/6*I)) * (z-2e^-(Pi/6*I)) is the first one, do for the other 2.

Then expand this.

You'll get z^2 - 4([e^(Pi/6*I)+e^(Pi/6*I)]/2)z + 4

The part in brackets with the e's, is cos.

So it's cos(Pi/6) = root(3)/2

So z^2-2*root(3)z + 4 is one of the answers.
 

InteGrand

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Now we sub in any values into k, say 0..5. (Can someone clarify if we just pick 6 (n) values here?).
You can pick any 6 (or generally n) consecutive numbers. Or more generally, any n numbers which have distinct values modulo n, i.e. distinct remainders when divided by n (but in practice, it's easiest to pick consecutive ones of course).
 

Flop21

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Then expand this.

You'll get z^2 - 4([e^(Pi/6*I)+e^(Pi/6*I)]/2)z + 4

The part in brackets with the e's, is cos.

So it's cos(Pi/6) = root(3)/2

So z^2-2*root(3)z + 4 is one of the answers.
Where does the 4 come from? And the /2?
 

Mr_Kap

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guys guys...CIS FORM PLEASE!!!! please.. plzz...plz.zz.


havent learnt e^ipi yet
 
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Mr_Kap

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They are in fact the same thing: cis(t) = e^(it).
i still don't get how to do the initial question i asked..the e^i*Pi is confusing me. i distinctlly remmember doing this sort of question last year b4 i dropped but i cant find my notes :(
 

Flop21

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guys guys...cis form please.. plzz...plz.zz.


havent learnt e^ipi yet
???

What is cis, and what do you mean, I see this form in chap 3, page 111.

If your having issues just watch the revision video they made.
 

InteGrand

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i still don't get how to do the initial question i asked..the e^i*Pi is confusing me. i distinctlly remmember doing this sort of question last year b4 i dropped but i cant find my notes :(
 
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InteGrand

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???

What is cis, and what do you mean, I see this form in chap 3, page 111.

If your having issues just watch the revision video they made.
The notation "cis" is commonly used in HSC 4U complex numbers (short for cos + i.sin. So cis(theta) is used to mean cos(theta) + i.sin(theta).).
 
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Mr_Kap

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???

What is cis, and what do you mean, I see this form in chap 3, page 111.

If your having issues just watch the revision video they made.
i dont have time to learn euler's bullshit. I'm behind in math...still at projections...so im relying on my 4u knowledge from last year to do complex numbers and shit.... meaning i need it in r(cos(theta)+i*sin(theta)) form.
 

Flop21

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i dont have time to learn euler's bullshit. I'm behind in math...still at projections...so im relying on my 4u knowledge from last year to do complex numbers and shit.... meaning i need it in r(cos(theta)+i*sin(theta)) form.
Well really all you have to remember is:

e^(i*Pi + 2k*Pi*i)

and shove the modulus to the left, and bam do what I said to solve, you're just using basic algebra and knowledge of exponentials/powers from there.

Trust me I don't really understand what's going on but it's what you do for the question. I feel like changing it into cis form would make it more complicated.

But hopefully integrand or someone can help you out.
 

InteGrand

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Well really all you have to remember is:

e^(i*Pi + 2k*Pi*i)

and shove the modulus to the left, and bam do what I said to solve, you're just using basic algebra and knowledge of exponentials/powers from there.

Trust me I don't really understand what's going on but it's what you do for the question. I feel like changing it into cis form would make it more complicated.

But hopefully integrand or someone can help you out.
I think the reason he asked for cis notation is that he's (at least for now) more used to that than exponential form since he remembers it from 4U (whereas exponential form isn't in 4U).
 

leehuan

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Lol yep agreed. Cut it out with the cis already.

@Flop pretend cis never existed in your life lol. It only (still) exists for MX2 and IB because it's probably a bit early to show that it's actually e^(i.theta)
 
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