U Utility Member Joined May 14, 2012 Messages 36 Gender Undisclosed HSC N/A Aug 8, 2012 #1 Use De Moivre's theorem to find all z where (i) z^2 = i
nightweaver066 Well-Known Member Joined Jul 7, 2010 Messages 1,585 Gender Male HSC 2012 Aug 8, 2012 #2 Let z = cis@ (cis@)^2 = i cis2@ = i (By De Moivre's theorem) cos2@ + isin2@ = i Equating real and imaginary terms, cos2@ = 0, sin2@ = 1 Therefore 2@ = pi/2, 5pi/2 @ = pi/4, 5pi/4 Last edited: Aug 8, 2012
Let z = cis@ (cis@)^2 = i cis2@ = i (By De Moivre's theorem) cos2@ + isin2@ = i Equating real and imaginary terms, cos2@ = 0, sin2@ = 1 Therefore 2@ = pi/2, 5pi/2 @ = pi/4, 5pi/4
M mathsbrain Member Joined Jul 16, 2012 Messages 161 Gender Male HSC N/A Aug 8, 2012 #3 z^2=i let z=rcis(x), polar form for i=cis(pi/2) this means r^2 cis(2x) = 1cis (pi/2 +2kpi) therefore equating moduli and arguments gives: r=1, x= (pi/2 +2k pi)/2 where k=0,1 so your answers are z1=cis(pi/4) and z2 = cis(3 pi/4)
z^2=i let z=rcis(x), polar form for i=cis(pi/2) this means r^2 cis(2x) = 1cis (pi/2 +2kpi) therefore equating moduli and arguments gives: r=1, x= (pi/2 +2k pi)/2 where k=0,1 so your answers are z1=cis(pi/4) and z2 = cis(3 pi/4)
U Utility Member Joined May 14, 2012 Messages 36 Gender Undisclosed HSC N/A Aug 9, 2012 #4 mathsbrain said: so your answers are z1=cis(pi/4) and z2 = cis(3 pi/4) Click to expand... Nice, that is the method I used (except 3pi / 4 should be 5pi / 4).
mathsbrain said: so your answers are z1=cis(pi/4) and z2 = cis(3 pi/4) Click to expand... Nice, that is the method I used (except 3pi / 4 should be 5pi / 4).