#root(3)(-1) = # ? Precalculus Complex Zeros Complex Conjugate Zeros 1 Answer Cesareo R. Feb 25, 2017 See below. Explanation: Putting #x^3=-1 = e^(-i pi/2) = -cos(pi)-isin(pi)# (de Moivre's identity) we have: #x^3=e^(-i (pi + 2k pi))# so #x = e^(-i(pi/3+2/3 k pi)# Now, making #k=0,1,2# we have the tree roots of #-1# #1/2 - i sqrt[3]/2,-1,1/2 + i sqrt[3]/2# Answer link Related questions What is a complex conjugate? How do I find a complex conjugate? What is the conjugate zeros theorem? How do I use the conjugate zeros theorem? What is the conjugate pair theorem? How do I find the complex conjugate of #10+6i#? How do I find the complex conjugate of #14+12i#? What is the complex conjugate for the number #7-3i#? What is the complex conjugate of #3i+4#? What is the complex conjugate of #a-bi#? See all questions in Complex Conjugate Zeros Impact of this question 1190 views around the world You can reuse this answer Creative Commons License