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Rank 4 Unit Topics from easiest to hardest (2 Viewers)
- Thread starter Dragonmaster262
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the-derivative
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Most people don't give a shit.
youngminii
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Whaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaat! The polys in mine took so much time ==;;
There was one question like:
x^4 + 2x^3 + 3x^2 + 2x + 1 = 0
w is a complex cube root of unity.
i) Show w is a root.
ii) Show wconjugate is also a root.
iii) Find the other quadratic factor.
iv) Hence find all roots to the equation.
This was worth 10/65 in a 55 minute exam. Jesus christ how the hell do we have enough time?
Oh yeah I made a mistake in this and I was looked at the clock and I had VERY little time left and I wasn't up to Integration section yet fuckfuck poor time management = fail.
There was one question like:
x^4 + 2x^3 + 3x^2 + 2x + 1 = 0
w is a complex cube root of unity.
i) Show w is a root.
ii) Show wconjugate is also a root.
iii) Find the other quadratic factor.
iv) Hence find all roots to the equation.
This was worth 10/65 in a 55 minute exam. Jesus christ how the hell do we have enough time?
Oh yeah I made a mistake in this and I was looked at the clock and I had VERY little time left and I wasn't up to Integration section yet fuckfuck poor time management = fail.
GUSSSSSSSSSSSSS
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poly's q in my half yearlies by far and away the HARDEST on the paper lol
i) w^3 = 1
(w-1)(w^2+w+1) = 0
so w^2 + w + 1 = 0
(w^2+w+1)^2 = 0
w^4 + w^3 + w^2 + w^3 + w^2 + w + w^2 + w + 1 = w^4 + 2w^3 + 3w^2 + 2w + 1 = 0
so since w^4 + 2w^3 + 3w^2 + 2w + 1 = 0,
w is the root.
ii)
let conjugate be cw
(cw)^4 + 2(cw)^3 + 3(cw)^2 + 2(cw) + 1 = c(w^4+2w^3+3w^2+2w+1) = c(0) = 0
iii) just solve w^2 + w + 1 = 0,
iv) keep going. lol
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youngminii
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Lol wtf @ your ii)
I used the fact that wconjugate = w^2 when it's a complex cube root of unity. Although I didn't prove that fact, since ii) was only 2 marks.
Also huh @ iii), how does that help?
Anyway, my point was that it took way too much time. (And I made a mistake..)
Btw, who are you?
I used the fact that wconjugate = w^2 when it's a complex cube root of unity. Although I didn't prove that fact, since ii) was only 2 marks.
Also huh @ iii), how does that help?
Anyway, my point was that it took way too much time. (And I made a mistake..)
Btw, who are you?
youngminii
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Ye lol, I full studied for roots of unity in the first exam (which had complex). Nothing came up with it. Lame <.<
ii) is a typical prove question. Refer to cambridge first chapter question on complex.
I am namu btw
for iii) it's just that you have equation given = (w^2+w+1)^2
so you will have 2 equal roots with 2 equal conjugate roots.
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GUSSSSSSSSSSSSS
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GUSSSSSSSSSSSSS
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no wait dun worry
it all works out lol
..
but thats sort of longer than other ways to do it..
you are solving the equation.
solving w^2+w+1 = 0
gives you two roots (normal and conjuage of that)
but since the equation that is given = (w^2+w+1)^2,
you will have 2 roots that are equal and 2 equal conjugate ones.
the roots are (-1 + sqrt(3)i)/2, (-1 + sqrt(3)i)/2, (-1 - sqrt(3)i)/2 and (-1 - sqrt(3)i)/2
GUSSSSSSSSSSSSS
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hahaha i just realised that u werent already given a root
lol i thought u were
then multiplying by conjugate and then doing a synthesis division would take like 10seconds
but lol just looked back and saw u OBVIOUSLY cant do that lol
and yeh so ur way work out best lol
Re: gcchick's posting
Many hate mechanics simply because they do not have the basic background in statics/dynamics .. kind of stuff that have been taught in the British system from way back. If you do physics for e.g. then much of mechanics would be easier. I suspect many of the younger maths teachers themselves do not have a background in mechanics to handle this topic properly.
Many hate mechanics simply because they do not have the basic background in statics/dynamics .. kind of stuff that have been taught in the British system from way back. If you do physics for e.g. then much of mechanics would be easier. I suspect many of the younger maths teachers themselves do not have a background in mechanics to handle this topic properly.
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youngminii
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Oh sheet it's namu 
HOLY CRAP @ YOUR METHOD FOR III), I so did not see that. I made the assumption that w = cis2pi/3 or something, which is fail, I know. Sigh..
Btw,
HOLY CRAP @ YOUR METHOD FOR III), I so did not see that. I made the assumption that w = cis2pi/3 or something, which is fail, I know. Sigh..
Btw,
Can you explain this to me? I'm confused.lyounamu said:
There is a conjugate rule like this:Oh sheet it's namu
HOLY CRAP @ YOUR METHOD FOR III), I so did not see that. I made the assumption that w = cis2pi/3 or something, which is fail, I know. Sigh..
Btw,
Can you explain this to me? I'm confused.
2cw = c(2w)
cw x ck = c(wk)
cw + ck = c(w+k)
so if you have something like:
(cw)^2 + (cw) + 1
that becomes c(w^2+2+1)
GUSSSSSSSSSSSSS
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lol im sure u (youngminii) will have fun remembering that....lol
youngminii
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Oh is c representing the bar on top? I see, lol that was simple and I didn't even see it, I feel like killing myself.
I made assumption that cw = w^2 (as it's a complex cube root of unity)
I made assumption that cw = w^2 (as it's a complex cube root of unity)
I don't know if it helps anybody, but in that question you wrote for part (ii) "Show that w conjugate is also a root".
In part (i) you proved (hopefully) that w is a root, thus there is really nothing to do for part (ii). Since the coefficients of the polynomial are all real, it is known that the non-real roots occur in complex conjugate pairs.
Of course the reason for that principle is just as you've been discussing:
^{*} = 0 \\ \therefore \sum \left(a_{k}\omega^{k}\right)^{*} = 0 \\ \therefore \sum a_{k}\left(\omega^{k}\right)^{*} = 0 \\ \therefore \sum a_{k}\left(\omega^{*}\right)^{k} = 0 \\ \therefore \omega^{*} \textrm{ is also a root} )
Each of those steps can be justified by observing, geometrically, that the process of reflection is commutative with another geometrical transformation ; dilation, rotation etc.
It's pretty weird but quite cool when you understand it
In part (i) you proved (hopefully) that w is a root, thus there is really nothing to do for part (ii). Since the coefficients of the polynomial are all real, it is known that the non-real roots occur in complex conjugate pairs.
Of course the reason for that principle is just as you've been discussing:
Each of those steps can be justified by observing, geometrically, that the process of reflection is commutative with another geometrical transformation ; dilation, rotation etc.
It's pretty weird but quite cool when you understand it
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