Polar form of $$$-1000000$$$
Your Input
Find the polar form of $$$-1000000$$$.
Solution
The standard form of the complex number is $$$-1000000$$$.
For a complex number $$$a + b i$$$, the polar form is given by $$$r \left(\cos{\left(\theta \right)} + i \sin{\left(\theta \right)}\right)$$$, where $$$r = \sqrt{a^{2} + b^{2}}$$$ and $$$\theta = \operatorname{atan}{\left(\frac{b}{a} \right)}$$$.
We have that $$$a = -1000000$$$ and $$$b = 0$$$.
Thus, $$$r = \sqrt{\left(-1000000\right)^{2} + 0^{2}} = 1000000$$$.
Also, $$$\theta = \operatorname{atan}{\left(\frac{0}{-1000000} \right)} + \pi = \pi$$$.
Therefore, $$$-1000000 = 1000000 \left(\cos{\left(\pi \right)} + i \sin{\left(\pi \right)}\right)$$$.
Answer
$$$-1000000 = 1000000 \left(\cos{\left(\pi \right)} + i \sin{\left(\pi \right)}\right) = 1000000 \left(\cos{\left(180^{\circ} \right)} + i \sin{\left(180^{\circ} \right)}\right)$$$A