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Division is the same as multiplying by the multiplicative inverse. For a complex number a+bi, the inverse is 1/(a+bi), but it is helpful to transform this ito rectangular form:
1 a-bi a-bi a b ---- = ------------ = --------- = --------- - --------- i a+bi (a+bi)(a-bi) a^2 + b^2 a^2 + b^2 a^2 + b^2
So, if we have problem (a+bi)/(c+di), we actually have a+bi multiplied by the inverse of c+di. We can transform this to rectangular form also:
c d (a+bi) ( --------- - --------- i ) c^2 + d^2 c^2 + d^2 ac ad bc bd = --------- - --------- i + --------- i + --------- c^2 + d^2 c^2 + d^2 c^2 + d^2 c^2 + d^2 ac + bd bc - ad = --------- + --------- i c^2 + d^2 c^2 + d^2
So,
a+bi ac + bd bc - ad ---- = --------- + --------- i c+di c^2 + d^2 c^2 + d^2
If you happen to be working in polar form instead, the calculation is much simpler, as you are simply dividing with the magnitudes and subtracting with the angles.
ae^(ic) a i(c-d) ------- = - e be^(id) b