Derivative of ctg(pi*x/2)

The solution

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   /pi*x\
cot|----|
   \ 2  /

$$\cot{\left(\frac{\pi x}{2} \right)}$$

cot((pi*x)/2)

Detail solution

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

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

The answer is:

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

The first derivative [src]

   /        2/pi*x\\
pi*|-1 - cot |----||
   \         \ 2  //
--------------------
         2

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

Simplify

The second derivative [src]

  2 /       2/pi*x\\    /pi*x\
pi *|1 + cot |----||*cot|----|
    \        \ 2  //    \ 2  /
------------------------------
              2

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

Simplify

The third derivative [src]

   3 /       2/pi*x\\ /         2/pi*x\\ 
-pi *|1 + cot |----||*|1 + 3*cot |----|| 
     \        \ 2  // \          \ 2  // 
-----------------------------------------
                    4

$$- \frac{\pi^{3} \left(\cot^{2}{\left(\frac{\pi x}{2} \right)} + 1\right) \left(3 \cot^{2}{\left(\frac{\pi x}{2} \right)} + 1\right)}{4}$$

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Derivative of ctg(pi*x/2)

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The solution

Method #1

Method #2