Derivative of cot(x)/x

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cot(x)
------
  x

\frac{\cot{\left(x \right)}}{x}

cot(x)/x

Detail solution

Apply the quotient rule, which is:

$\frac{d}{d x} \frac{f{\left(x \right)}}{g{\left(x \right)}} = \frac{- f{\left(x \right)} \frac{d}{d x} g{\left(x \right)} + g{\left(x \right)} \frac{d}{d x} f{\left(x \right)}}{g^{2}{\left(x \right)}}$

$f{\left(x \right)} = \cot{\left(x \right)}$ and $g{\left(x \right)} = x$ .

To find $\frac{d}{d x} f{\left(x \right)}$ :
1. There are multiple ways to do this derivative.
  Method #1
  1. Rewrite the function to be differentiated:
    
    $\cot{\left(x \right)} = \frac{1}{\tan{\left(x \right)}}$
  2. Let $u = \tan{\left(x \right)}$ .
  3. Apply the power rule: $\frac{1}{u}$ goes to $- \frac{1}{u^{2}}$
  4. Then, apply the chain rule. Multiply by $\frac{d}{d x} \tan{\left(x \right)}$ :
    1. Rewrite the function to be differentiated:
      
      $\tan{\left(x \right)} = \frac{\sin{\left(x \right)}}{\cos{\left(x \right)}}$
    2. Apply the quotient rule, which is:
      
      $\frac{d}{d x} \frac{f{\left(x \right)}}{g{\left(x \right)}} = \frac{- f{\left(x \right)} \frac{d}{d x} g{\left(x \right)} + g{\left(x \right)} \frac{d}{d x} f{\left(x \right)}}{g^{2}{\left(x \right)}}$
      
      $f{\left(x \right)} = \sin{\left(x \right)}$ and $g{\left(x \right)} = \cos{\left(x \right)}$ .
      
      To find $\frac{d}{d x} f{\left(x \right)}$ :
      
      The derivative of sine is cosine:
      
      $\frac{d}{d x} \sin{\left(x \right)} = \cos{\left(x \right)}$
      
      To find $\frac{d}{d x} g{\left(x \right)}$ :
      
      The derivative of cosine is negative sine:
      
      $\frac{d}{d x} \cos{\left(x \right)} = - \sin{\left(x \right)}$
      
      Now plug in to the quotient rule:
      
      $\frac{\sin^{2}{\left(x \right)} + \cos^{2}{\left(x \right)}}{\cos^{2}{\left(x \right)}}$
    The result of the chain rule is:
    
    $- \frac{\sin^{2}{\left(x \right)} + \cos^{2}{\left(x \right)}}{\cos^{2}{\left(x \right)} \tan^{2}{\left(x \right)}}$
  Method #2
  1. Rewrite the function to be differentiated:
    
    $\cot{\left(x \right)} = \frac{\cos{\left(x \right)}}{\sin{\left(x \right)}}$
  2. Apply the quotient rule, which is:
    
    $\frac{d}{d x} \frac{f{\left(x \right)}}{g{\left(x \right)}} = \frac{- f{\left(x \right)} \frac{d}{d x} g{\left(x \right)} + g{\left(x \right)} \frac{d}{d x} f{\left(x \right)}}{g^{2}{\left(x \right)}}$
    
    $f{\left(x \right)} = \cos{\left(x \right)}$ and $g{\left(x \right)} = \sin{\left(x \right)}$ .
    
    To find $\frac{d}{d x} f{\left(x \right)}$ :
    1. The derivative of cosine is negative sine:
      
      $\frac{d}{d x} \cos{\left(x \right)} = - \sin{\left(x \right)}$
    To find $\frac{d}{d x} g{\left(x \right)}$ :
    1. The derivative of sine is cosine:
      
      $\frac{d}{d x} \sin{\left(x \right)} = \cos{\left(x \right)}$
    Now plug in to the quotient rule:
    
    $\frac{- \sin^{2}{\left(x \right)} - \cos^{2}{\left(x \right)}}{\sin^{2}{\left(x \right)}}$
To find $\frac{d}{d x} g{\left(x \right)}$ :
1. Apply the power rule: $x$ goes to $1$
Now plug in to the quotient rule:

$\frac{- \frac{x \left(\sin^{2}{\left(x \right)} + \cos^{2}{\left(x \right)}\right)}{\cos^{2}{\left(x \right)} \tan^{2}{\left(x \right)}} - \cot{\left(x \right)}}{x^{2}}$
Now simplify:

$\frac{2 x + \sin{\left(2 x \right)}}{x^{2} \left(\cos{\left(2 x \right)} - 1\right)}$

The answer is:

\frac{2 x + \sin{\left(2 x \right)}}{x^{2} \left(\cos{\left(2 x \right)} - 1\right)}

The graph

Plot the graph f(x)

Plot the graph f'(x)

The first derivative [src]

        2            
-1 - cot (x)   cot(x)
------------ - ------
     x            2  
                 x

\frac{- \cot^{2}{\left(x \right)} - 1}{x} - \frac{\cot{\left(x \right)}}{x^{2}}

Simplify

The second derivative [src]

  /       2                                   \
  |1 + cot (x)   cot(x)   /       2   \       |
2*|----------- + ------ + \1 + cot (x)/*cot(x)|
  |     x           2                         |
  \                x                          /
-----------------------------------------------
                       x

\frac{2 \left(\left(\cot^{2}{\left(x \right)} + 1\right) \cot{\left(x \right)} + \frac{\cot^{2}{\left(x \right)} + 1}{x} + \frac{\cot{\left(x \right)}}{x^{2}}\right)}{x}

Simplify

The third derivative [src]

   /                                             /       2   \     /       2   \       \
   |/       2   \ /         2   \   3*cot(x)   3*\1 + cot (x)/   3*\1 + cot (x)/*cot(x)|
-2*|\1 + cot (x)/*\1 + 3*cot (x)/ + -------- + --------------- + ----------------------|
   |                                    3              2                   x           |
   \                                   x              x                                /
----------------------------------------------------------------------------------------
                                           x

- \frac{2 \left(\left(\cot^{2}{\left(x \right)} + 1\right) \left(3 \cot^{2}{\left(x \right)} + 1\right) + \frac{3 \left(\cot^{2}{\left(x \right)} + 1\right) \cot{\left(x \right)}}{x} + \frac{3 \left(\cot^{2}{\left(x \right)} + 1\right)}{x^{2}} + \frac{3 \cot{\left(x \right)}}{x^{3}}\right)}{x}

Simplify

The graph

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Identical expressions

Similar expressions

Derivative of cot(x)/x

The graph:

Piecewise:

The solution

Method #1

Method #2