9.4 PROPERTIES OF THE COMPLEX NUMBER FIELD 327(Imaginary axis)
IFigure 9.5 Graphic view of the four complex
4th roots of z = 16.Exercises
- Express each of the following complex numbers in the form x + yi:
(a) 6(4 - i) - 3(2 + 2i)
(c) (2 + i)(2 - i)
(e) (1 - i)4
*(g) (4A4 - 9) - (4/(4 + 0)
(b) - l/i
(d) (2 - i)/(2 + i)
(f) i16+i6+i5- Given z, = 5 - 3i, z2 = 4 + 5i, and z, = 2i, calculate:
- Find all z E C satisfying the equation:
(a) (4 + 3i)z + (7 + 4i) = 6
(c) z - z = 4i
(e) z + (412) = 0
(g) z2-4z+ 13=0
(b) z + z* = 4i
(d) z + z* = 12
(f) z2+121=o- Use polar form z = reie of a complex number z = x + yi (and Theorem 5(a), in
particular) to calculate the product z1z2 and the quotient z1/z2, where 2, = 3 - 3i
and z2 = 23 + 2i. - Use Theorem 6 and the method of Example 5 to find:
(a) The four complex 4th roots of z = - 16
(b) The three complex cubed roots of z = 8i - Prove that if the complex numbers z, and z2 are both real, then:
(a) zl + z2 = Re@,) + Re(z2) *(b) zlz2 = Re(z,) Re(z2)