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Derivative of e^(2x)cos(x)

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 2*x       
e   *cos(x)

$$e^{2 x} \cos{\left(x \right)}$$

d / 2*x       \
--\e   *cos(x)/
dx

$$\frac{d}{d x} e^{2 x} \cos{\left(x \right)}$$

Transform

Detail solution

Apply the product rule:

$\frac{d}{d x} f{\left(x \right)} g{\left(x \right)} = f{\left(x \right)} \frac{d}{d x} g{\left(x \right)} + g{\left(x \right)} \frac{d}{d x} f{\left(x \right)}$

$f{\left(x \right)} = e^{2 x}$ ; to find $\frac{d}{d x} f{\left(x \right)}$ :
1. Let $u = 2 x$ .
2. The derivative of $e^{u}$ is itself.
3. Then, apply the chain rule. Multiply by $\frac{d}{d x} 2 x$ :
  1. The derivative of a constant times a function is the constant times the derivative of the function.
    1. Apply the power rule: $x$ goes to $1$
    So, the result is: $2$
  The result of the chain rule is:
  
  $2 e^{2 x}$
$g{\left(x \right)} = \cos{\left(x \right)}$ ; to find $\frac{d}{d x} g{\left(x \right)}$ :
1. The derivative of cosine is negative sine:
  
  $\frac{d}{d x} \cos{\left(x \right)} = - \sin{\left(x \right)}$
The result is: $- e^{2 x} \sin{\left(x \right)} + 2 e^{2 x} \cos{\left(x \right)}$
Now simplify:

$\left(- \sin{\left(x \right)} + 2 \cos{\left(x \right)}\right) e^{2 x}$

The answer is:

$\left(- \sin{\left(x \right)} + 2 \cos{\left(x \right)}\right) e^{2 x}$

The graph

Plot the graph f(x)

Plot the graph f'(x)

The first derivative [src]

   2*x                    2*x
- e   *sin(x) + 2*cos(x)*e

$$- e^{2 x} \sin{\left(x \right)} + 2 e^{2 x} \cos{\left(x \right)}$$

Simplify

The second derivative [src]

                        2*x
(-4*sin(x) + 3*cos(x))*e

$$\left(- 4 \sin{\left(x \right)} + 3 \cos{\left(x \right)}\right) e^{2 x}$$

Simplify

The third derivative [src]

                         2*x
(-11*sin(x) + 2*cos(x))*e

$$\left(- 11 \sin{\left(x \right)} + 2 \cos{\left(x \right)}\right) e^{2 x}$$

Simplify

The graph

Derivative of e^(2*x)*cos(x)