Question

How do you find the nth derivative of `e^x cos x`?

Answer 1

Hello,

Use complex numbers.

1) Write `e^x \cos(x) = e^x\mathfrak{Re}(e^{ix}) = \mathfrak{Re}(e^{(1+i)x})`.

2) Calculate `n`-th derivative of `e^{(1+i)x}` :

`\frac{d^n}{dx^n}e^{(1+i)x} = (1+i)^n e^{(1+i)x}`.

3) Take the real part :

`\frac{d^n}{dx^n}e^{x}cos(x) = \mathfrak{Re}((1+i)^n e^{(1+i)x}) = e^x\mathfrak{Re}((1+i)^n e^{ix})`.

To simplify that, you have to write `(1+i) = \sqrt{2}e^{i\frac{\pi}{4}}` (trigonometric form of `1+i`). So,

`(1+i)^n e^{i x}= \sqrt{2}^n e^{i (n pi/4 + x)} = 2^{n/2} (\cos(n pi/4 + x) + i sin(n pi /4+x))`

Finally, taking real part,

`\frac{d^n}{dx^n}e^{x}cos(x) =2^{n/2}e^x cos(n pi/4 + x)`