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Polar Form of a Complex Number

The polar form of a complex number is another way to represent a complex number. The form z = a + b i is called the rectangular coordinate form of a complex number.

The horizontal axis is the real axis and the vertical axis is the imaginary axis. We find the real and complex components in terms of r and θ where r is the length of the vector and θ is the angle made with the real axis.

From Pythagorean Theorem :

r 2 = a 2 + b 2

By using the basic trigonometric ratios :

cos θ = a r and sin θ = b r .

Multiplying each side by r :

r cos θ = a   and   r sin θ = b

The rectangular form of a complex number is given by

z = a + b i .

Substitute the values of a and b .

z = a + b i = r cos θ + ( r sin θ ) i = r ( cos θ + i sin θ )

In the case of a complex number, r represents the absolute value or modulus and the angle θ is called the argument of the complex number.

This can be summarized as follows:

The polar form of a complex number z = a + b i is z = r ( cos θ + i sin θ ) , where r = | z | = a 2 + b 2 , a = r cos θ   and   b = r sin θ , and θ = tan 1 ( b a ) for a > 0 and θ = tan 1 ( b a ) + π or θ = tan 1 ( b a ) + 180 ° for a < 0 .

Example:

Express the complex number in polar form.

5 + 2 i

The polar form of a complex number z = a + b i is z = r ( cos θ + i sin θ ) .

So, first find the absolute value of r .

r = | z | = a 2 + b 2 = 5 2 + 2 2 = 25 + 4 = 29 5.39

Now find the argument θ .

Since a > 0 , use the formula θ = tan 1 ( b a ) .

θ = tan 1 ( 2 5 ) 0.38

Note that here θ is measured in radians.

Therefore, the polar form of 5 + 2 i is about 5.39 ( cos ( 0.38 ) + i sin ( 0.38 ) ) .