Solving complex number equations involving trig











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Let $w$ be a complex number. By solving the equation $frac{u^2 - 1}{u^2 + 1} = iw$ for a suitable complex number $u$, find an expression for $tan^{-1}(w)$.



I did the first part and got that $u^2 = frac{1 + iw}{1 - iw}$ but have no idea where to go from here. Should I be integrating or something?










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    Let $w$ be a complex number. By solving the equation $frac{u^2 - 1}{u^2 + 1} = iw$ for a suitable complex number $u$, find an expression for $tan^{-1}(w)$.



    I did the first part and got that $u^2 = frac{1 + iw}{1 - iw}$ but have no idea where to go from here. Should I be integrating or something?










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      Let $w$ be a complex number. By solving the equation $frac{u^2 - 1}{u^2 + 1} = iw$ for a suitable complex number $u$, find an expression for $tan^{-1}(w)$.



      I did the first part and got that $u^2 = frac{1 + iw}{1 - iw}$ but have no idea where to go from here. Should I be integrating or something?










      share|cite|improve this question















      Let $w$ be a complex number. By solving the equation $frac{u^2 - 1}{u^2 + 1} = iw$ for a suitable complex number $u$, find an expression for $tan^{-1}(w)$.



      I did the first part and got that $u^2 = frac{1 + iw}{1 - iw}$ but have no idea where to go from here. Should I be integrating or something?







      complex-analysis complex-numbers






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      edited Nov 18 at 1:09

























      asked Nov 18 at 0:57









      sam

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      498






















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          This is kind of a neat one.



          $$ frac{u^2 - 1}{u^2 + 1} = iw $$



          $$ frac{ frac{u - 1/u }{2i} }{ frac{u + 1/u }{2} }= w $$



          The definition of sine and cosine can be used with the right choice of $u$.



          $$ u = e^{itheta} $$



          $$ frac{ frac{e^{itheta} - e^{-itheta} }{2i} }{ frac{e^{itheta} + e^{-itheta} }{2} } = w $$



          $$ frac{ sin(theta)} {cos(theta)} = tan(theta)= w $$



          Finally, the expression can be converted back into terms of $u$.



          $$ tan^{-1}(w)= theta = frac{ln(u)}{i} = -ln(u)i $$






          share|cite|improve this answer




























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            Let $gamma=tan ^{-1} w$ then we have $$w=tan gamma =(1/i)(frac {e^{2i gamma }-1}{e^{2i gamma}+1}) $$



            Thus with $u=e^{igamma} $we have $$ tan ^{-1} w=frac {ln u}{i}$$






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              2 Answers
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              active

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              2 Answers
              2






              active

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              active

              oldest

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              active

              oldest

              votes








              up vote
              3
              down vote



              accepted










              This is kind of a neat one.



              $$ frac{u^2 - 1}{u^2 + 1} = iw $$



              $$ frac{ frac{u - 1/u }{2i} }{ frac{u + 1/u }{2} }= w $$



              The definition of sine and cosine can be used with the right choice of $u$.



              $$ u = e^{itheta} $$



              $$ frac{ frac{e^{itheta} - e^{-itheta} }{2i} }{ frac{e^{itheta} + e^{-itheta} }{2} } = w $$



              $$ frac{ sin(theta)} {cos(theta)} = tan(theta)= w $$



              Finally, the expression can be converted back into terms of $u$.



              $$ tan^{-1}(w)= theta = frac{ln(u)}{i} = -ln(u)i $$






              share|cite|improve this answer

























                up vote
                3
                down vote



                accepted










                This is kind of a neat one.



                $$ frac{u^2 - 1}{u^2 + 1} = iw $$



                $$ frac{ frac{u - 1/u }{2i} }{ frac{u + 1/u }{2} }= w $$



                The definition of sine and cosine can be used with the right choice of $u$.



                $$ u = e^{itheta} $$



                $$ frac{ frac{e^{itheta} - e^{-itheta} }{2i} }{ frac{e^{itheta} + e^{-itheta} }{2} } = w $$



                $$ frac{ sin(theta)} {cos(theta)} = tan(theta)= w $$



                Finally, the expression can be converted back into terms of $u$.



                $$ tan^{-1}(w)= theta = frac{ln(u)}{i} = -ln(u)i $$






                share|cite|improve this answer























                  up vote
                  3
                  down vote



                  accepted







                  up vote
                  3
                  down vote



                  accepted






                  This is kind of a neat one.



                  $$ frac{u^2 - 1}{u^2 + 1} = iw $$



                  $$ frac{ frac{u - 1/u }{2i} }{ frac{u + 1/u }{2} }= w $$



                  The definition of sine and cosine can be used with the right choice of $u$.



                  $$ u = e^{itheta} $$



                  $$ frac{ frac{e^{itheta} - e^{-itheta} }{2i} }{ frac{e^{itheta} + e^{-itheta} }{2} } = w $$



                  $$ frac{ sin(theta)} {cos(theta)} = tan(theta)= w $$



                  Finally, the expression can be converted back into terms of $u$.



                  $$ tan^{-1}(w)= theta = frac{ln(u)}{i} = -ln(u)i $$






                  share|cite|improve this answer












                  This is kind of a neat one.



                  $$ frac{u^2 - 1}{u^2 + 1} = iw $$



                  $$ frac{ frac{u - 1/u }{2i} }{ frac{u + 1/u }{2} }= w $$



                  The definition of sine and cosine can be used with the right choice of $u$.



                  $$ u = e^{itheta} $$



                  $$ frac{ frac{e^{itheta} - e^{-itheta} }{2i} }{ frac{e^{itheta} + e^{-itheta} }{2} } = w $$



                  $$ frac{ sin(theta)} {cos(theta)} = tan(theta)= w $$



                  Finally, the expression can be converted back into terms of $u$.



                  $$ tan^{-1}(w)= theta = frac{ln(u)}{i} = -ln(u)i $$







                  share|cite|improve this answer












                  share|cite|improve this answer



                  share|cite|improve this answer










                  answered Nov 18 at 1:34









                  Cedron Dawg

                  80019




                  80019






















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                      Let $gamma=tan ^{-1} w$ then we have $$w=tan gamma =(1/i)(frac {e^{2i gamma }-1}{e^{2i gamma}+1}) $$



                      Thus with $u=e^{igamma} $we have $$ tan ^{-1} w=frac {ln u}{i}$$






                      share|cite|improve this answer



























                        up vote
                        0
                        down vote













                        Let $gamma=tan ^{-1} w$ then we have $$w=tan gamma =(1/i)(frac {e^{2i gamma }-1}{e^{2i gamma}+1}) $$



                        Thus with $u=e^{igamma} $we have $$ tan ^{-1} w=frac {ln u}{i}$$






                        share|cite|improve this answer

























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                          up vote
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                          down vote









                          Let $gamma=tan ^{-1} w$ then we have $$w=tan gamma =(1/i)(frac {e^{2i gamma }-1}{e^{2i gamma}+1}) $$



                          Thus with $u=e^{igamma} $we have $$ tan ^{-1} w=frac {ln u}{i}$$






                          share|cite|improve this answer














                          Let $gamma=tan ^{-1} w$ then we have $$w=tan gamma =(1/i)(frac {e^{2i gamma }-1}{e^{2i gamma}+1}) $$



                          Thus with $u=e^{igamma} $we have $$ tan ^{-1} w=frac {ln u}{i}$$







                          share|cite|improve this answer














                          share|cite|improve this answer



                          share|cite|improve this answer








                          edited Nov 18 at 1:38

























                          answered Nov 18 at 1:32









                          Mohammad Riazi-Kermani

                          40.3k41958




                          40.3k41958






























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