Complex Numbers - Help needed (1 Viewer)

a1079atw

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Hi all,


Can anyone please help me with these three questions? I really have no idea how to solve them...
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Thanks in advance!
 

Sy123

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I'll give you some hints:

7) You can do the sub u=x^2 then solve the quadratic, or:



Multiply both sides by (z^2+1)



8)Similarly do a substitution or multiply both sides by (z^2-1)

9) We re-arrange:





Then roots of unity.
 

QZP

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@Sy123, I'm not sure what you did for (z^2 +- 1). Care to explain?
 

a1079atw

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Thanks :) I scanned my solution for Q7, but not sure if I did the right thing :p There are four answers?
Scan.jpg
I'm still working on Q9
 

hit patel

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U did sillies a1079atw. Please check z^2= 1+....... and then u continued on with z = 1+....


I'll give you some hints:

7) You can do the sub u=x^2 then solve the quadratic, or:



Multiply both sides by (z^2+1)



8)Similarly do a substitution or multiply both sides by (z^2-1)

9) We re-arrange:





Then roots of unity.
Like this?

((z-1)/(z+1))^6=-1
(z-1)/(z+1)= [cis((2kpi+pi)/6)]


Now z-1= (z+1)(cis ((2pi+pi)/6))
z-1 = zcis ((2kpi+pi)/6))+ cis(cis ((2pi+pi)/6)
Since z is factorable

z(1- cis((2kpi+pi)/6)) -1 = cis ((2kpi+pi)/6)
Therefore z= (1+(cis ((2pi+pi)/6))) / (1- (cis ((2pi+pi)/6)))
Now we change to polar form:

z= (1+ cos ((2pi+pi)/6) + i sin ((2pi+pi)/6))/ (1- cos ((2pi+pi)/6) - i sin ((2pi+pi)/6))
Now using double angle

z= (2cos^2((2kpi+pi)/12) + 2icos ((2kpi+pi)/12) x sin ((2kpi+pi)/12)) / (2sin^2((2kpi+pi)/12) - 2i cos((2kpi+pi)/12) x sin((2kpi+pi)/12))

Factorising we get :
(2cos((2kpi+pi)/12) x (cos((2kpi+pi)/12)+ sin((2kpi+pi)/12))/ ( 2sin ((2kpi+pi)/12) x (sin((2kpi+pi)/12) - i cos((2kpi+pi)/12)))

Now we can take out the -i from the denominator and set in it the polar form x + iy

This leads to :
(cos((2kpi+pi)/12) x (cos((2kpi+pi)/12)+ sin((2kpi+pi)/12))/ ( -isin ((2kpi+pi)/12) x ( cos ((2kpi+pi)/12) + sin((2kpi+pi)/12))))

This leads to cot ((2kpi+pi)/12)/(-i )

= i cot((2kpi+pi)/12)
let k=0,+_ 1, +_2, -3

Now can find solutions.
 

Drongoski

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Q7 & Q8 can also be done this way (for Q7):



Then you find z from there.


Sy123's method cleaner: you solve z^6 + 1 = 0. But don't forget to exclude roots for z^2 + 1 = 0.
 
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Sy123

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@Sy123, I'm not sure what you did for (z^2 +- 1). Care to explain?
I multiplied both sides of the equation by (z^2+1), this is because:



Which becomes easier to deal with.

NOTE: If you've done Series in 2U (if you haven't ignore), then notice that the sum 1 - z^2 + z^4 is a geometric series of ratio (-z^2) therefore we can use the sum formula so that this factorization becomes obvious.

Thanks :) I scanned my solution for Q7, but not sure if I did the right thing :p There are four answers?
View attachment 28762
I'm still working on Q9
The substitution method is very clunky, its better to just multiply both sides by (z^2+1)







BUT, we must discard the solutions that give us:



This is because those solutions only came about because we multiplied both sides by which creates more solutions.

U did sillies a1079atw. Please check z^2= 1+....... and then u continued on with z = 1+....




Like this?

((z-1)/(z+1))^6=-1
(z-1)/(z+1)= [cis((2kpi+pi)/6)]


Now z-1= (z+1)(cis ((2pi+pi)/6))
z-1 = zcis ((2kpi+pi)/6))+ cis(cis ((2pi+pi)/6)
Since z is factorable

z(1- cis((2kpi+pi)/6)) -1 = cis ((2kpi+pi)/6)
Therefore z= (1+(cis ((2pi+pi)/6))) / (1- (cis ((2pi+pi)/6)))
Now we change to polar form:

z= (1+ cos ((2pi+pi)/6) + i sin ((2pi+pi)/6))/ (1- cos ((2pi+pi)/6) - i sin ((2pi+pi)/6))
Now using double angle

z= (2cos^2((2kpi+pi)/12) + 2icos ((2kpi+pi)/12) x sin ((2kpi+pi)/12)) / (2sin^2((2kpi+pi)/12) - 2i cos((2kpi+pi)/12) x sin((2kpi+pi)/12))

Factorising we get :
(2cos((2kpi+pi)/12) x (cos((2kpi+pi)/12)+ sin((2kpi+pi)/12))/ ( 2sin ((2kpi+pi)/12) x (sin((2kpi+pi)/12) - i cos((2kpi+pi)/12)))

Now we can take out the -i from the denominator and set in it the polar form x + iy

This leads to :
(cos((2kpi+pi)/12) x (cos((2kpi+pi)/12)+ sin((2kpi+pi)/12))/ ( -isin ((2kpi+pi)/12) x ( cos ((2kpi+pi)/12) + sin((2kpi+pi)/12))))

This leads to cot ((2kpi+pi)/12)/(-i )

= i cot((2kpi+pi)/12)
let k=0,+_ 1, +_2, -3

Now can find solutions.
Yea something like that
 

a1079atw

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U did sillies a1079atw. Please check z^2= 1+....... and then u continued on with z = 1+....
Thanks for the working of Q9, but I don't understand what's wrong with the z=1+...... part.
Don't you use this equation where z^n = a+bi is z^2= [cos(pi/3)+isin(pi/3)]?
Screen Shot 2013-10-10 at 4.48.54 PM.jpg
 

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