Let √18i = a + bi, where a, b ∈ R.
Squaring on both sides, we get
18i = a2 + b2 i2 + 2abi
0 + 18i = a2 – b2 + 2abi …..[∵ i2 = -1]
Equating real and imaginary parts, we get
a2 – b2 = 0 and 2ab = 18
a2 – b2 = 0 and b = \(\frac{9}{a}\)
\(a^{2}-\left(\frac{9}{a}\right)^{2}=0\)
\(a^{2}-\frac{81}{a^{2}}=0\)
a4 – 81 = 0
(a2 – 9) (a2 + 9) = 0
a2 = 9 or a2 = -9
But a ∈ R
∴ a2 ≠ -9
∴ a2 = 9
∴ a = ± 3
When a = 3, b = \(\frac{9}{3}\) = 3
When a = -3, b = \(\frac{9}{-3}\) = -3
∴ √18i = ±(3 + 3i) = ±3(1 + i)
