Important Questions on Complex Numbers for NDA & Air Force X & Y

By Dhruv Kumar|Updated : February 8th, 2021

A complex number is a number that can be expressed in the form p + iq, where p and q are real numbers, and i is a solution of the equation x2 =−1. √1 =i or i2=−1. Examples of complex numbers: 8 – 2i, 2 +31i, 2+ 45i, etc. Complex numbers are denoted by ‘z’.

 

General form of Complex Number: z = p + iq

Where,

  • p is known as the real part, denoted by Re z
  • q is known as the imaginary part, denoted by Im z

If z = 12 + 35i, then Re z = 12 and Im z = 35. If z1 and z2 are two complex numbers such that z1 = p + iq and z2 = r + is. z1 and z2 are equal if p = r and q = s.

Algebra of Complex Numbers

Addition of complex numbers

Let z1 = m + ni and z2 = o + ip be two complex numbers. Then, z1 + z2 = z = (m + o) + (n + p)i, where z = resultant complex number. For example, (12 + 13i) + (-16 +15i) = (12 – 16) + (13 + 15)i = -4 + 28i.

  • The sum of complex numbers is always a complex number (closure law)
  • For complex numbers z1 and z2: z2 + z1= z1 + z2 (commutative law) For complex numbers z1, z2, z3: (z1 + z2) + z3 = z1 + (z2 + z3) [associative law].
  • For every complex number z, z + 0 = z [additive identity]
  • To every complex number z = p + qi, we have the complex number -z = -p + i(-q), called the negative or additive inverse of z. [z + (–z) = 0]

Difference of complex numbers

Let z1 = m + ni and z2 = o + ip be two complex numbers, then z1 – z2 = z1 + (-z2). For example, (16 + 13i) – (12 – 1i) = (16 + 13i) + (-12 + 1i ) = 4 + 14i and (12 – 1i) – (16 + 13i) = (12 – 1i) + ( -16 – 13i) = -4 – 14i

Multiplication of complex numbers

Let z1 = m + ni and z2 = o + ip be two complex numbers then, z1 × z2 = (mo – np) + i(no + pm). For example, (2 + 4i) (1 + 5i) = (2 × 1 – 4 × 5) + i(2 × 5 + 4 × 1) = -22 + 14i The product of two complex numbers is a complex number (closure law)

  • For complex numbers z1 and z2, z1 × z2 = z2 × z1 (commutative law).
  • For complex numbers z1, z2, z3, (z1 × z2) × z3 = z1 × (z2 × z3) [associative law].

Let z1 = m + in and z2 = o + ip. Then,

  • z1 + z2 = (m + o) + i (n + p)
  • z1 z2 = (mo – np) + i(mp + on)
  • The conjugate of the complex number z = m + in, denoted by z, is given by z = m – in.

The Modulus and Conjugate of Complex Numbers

Let z = m + in be a complex number. Then, the modulus of z, denoted by |z| = √m2−n2 and the conjugate of z, denoted by z  is the complex number m – ni. In the Argand plane, the modulus of the complex number m + in = √m2−n2 is the distance between the point (m, n) and the origin (0, 0). The x-axis is termed as the real axis and the y-axis is termed as the imaginary axis.

Complex Numbers and Quadratic Equations Practice Questions

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