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Derivative of:
ln(x-1)
Identical expressions
ln(x- one)
ln(x minus 1)
ln(x minus one)
lnx-1
ln(x-1)dx
Similar expressions
exp(-x)*ln((x-1)/(x+1))
ln(x+1)
(x*ln(x))^(-1)

Solving integrals/ ln(x-1)

Integral of ln(x-1) dx

The solution

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  1              
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 |  log(x - 1) dx
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0

$$\int\limits_{0}^{1} \log{\left(x - 1 \right)}\, dx$$

Integral(log(x - 1), (x, 0, 1))

Detail solution

There are multiple ways to do this integral.
Method #1
1. Let $u = x - 1$ .
  
  Then let $du = dx$ and substitute $du$ :
  
  $\int \log{\left(u \right)}\, du$
  1. Use integration by parts:
    
    $\int \operatorname{u} \operatorname{dv} = \operatorname{u}\operatorname{v} - \int \operatorname{v} \operatorname{du}$
    
    Let $u{\left(u \right)} = \log{\left(u \right)}$ and let $\operatorname{dv}{\left(u \right)} = 1$ .
    
    Then $\operatorname{du}{\left(u \right)} = \frac{1}{u}$ .
    
    To find $v{\left(u \right)}$ :
    1. The integral of a constant is the constant times the variable of integration:
      
      $\int 1\, du = u$
    Now evaluate the sub-integral.
  2. The integral of a constant is the constant times the variable of integration:
    
    $\int 1\, du = u$
  Now substitute $u$ back in:
  
  $- x + \left(x - 1\right) \log{\left(x - 1 \right)} + 1$
Method #2
1. Use integration by parts:
  
  $\int \operatorname{u} \operatorname{dv} = \operatorname{u}\operatorname{v} - \int \operatorname{v} \operatorname{du}$
  
  Let $u{\left(x \right)} = \log{\left(x - 1 \right)}$ and let $\operatorname{dv}{\left(x \right)} = 1$ .
  
  Then $\operatorname{du}{\left(x \right)} = \frac{1}{x - 1}$ .
  
  To find $v{\left(x \right)}$ :
  1. The integral of a constant is the constant times the variable of integration:
    
    $\int 1\, dx = x$
  Now evaluate the sub-integral.
2. Rewrite the integrand:
  
  $\frac{x}{x - 1} = 1 + \frac{1}{x - 1}$
3. Integrate term-by-term:
  1. The integral of a constant is the constant times the variable of integration:
    
    $\int 1\, dx = x$
  1. Let $u = x - 1$ .
    
    Then let $du = dx$ and substitute $du$ :
    
    $\int \frac{1}{u}\, du$
    1. The integral of $\frac{1}{u}$ is $\log{\left(u \right)}$ .
    Now substitute $u$ back in:
    
    $\log{\left(x - 1 \right)}$
  The result is: $x + \log{\left(x - 1 \right)}$
Now simplify:

$- x + \left(x - 1\right) \log{\left(x - 1 \right)} + 1$
Add the constant of integration:

$- x + \left(x - 1\right) \log{\left(x - 1 \right)} + 1+ \mathrm{constant}$

The answer is:

$- x + \left(x - 1\right) \log{\left(x - 1 \right)} + 1+ \mathrm{constant}$

The answer (Indefinite) [src]

  /                                              
 |                                               
 | log(x - 1) dx = 1 + C - x + (x - 1)*log(x - 1)
 |                                               
/

$$\int \log{\left(x - 1 \right)}\, dx = C - x + \left(x - 1\right) \log{\left(x - 1 \right)} + 1$$

Simplify

The graph

Plot the graph f(x)

The answer [src]

-1 + pi*I

$$-1 + i \pi$$

-1 + pi*I

$$-1 + i \pi$$

-1 + pi*i

Numerical answer [src]

(-1.0 + 3.14159265358979j)

(-1.0 + 3.14159265358979j)

The graph

Use the examples entering the upper and lower limits of integration.

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Identical expressions

Similar expressions

Integral of ln(x-1) dx

Limits of integration:

The graph:

Piecewise:

The solution

Method #1

Method #2