sho-that-0-1-2-is-a-point-of-symetry-for-the-curve-f-x-x-1-1-e-x-Please-make-a-reference-to-a-book-i-can-understand-centre-of-symmetry-of-rational-functions-and-functions-like-this-

Question Number 100771 by Rio Michael last updated on 28/Jun/20

sho that (0, \frac{1}{2}) is a point of symetry for the curve

f (x) = x + \frac{1}{1 - e^{x}}

Please make a reference to a book i can understand

centre of symmetry of rational functions and functions

like this

Commented by abdomathmax last updated on 28/Jun/20

all vuibert and ellipces books are good \dots

Answered by MJS last updated on 28/Jun/20

(\begin{matrix} p \\ q \end{matrix}) is the symmetry center of f (x)

\Leftrightarrow

q - f (p - x) = - (q - f (x))

in our case

\frac{1}{2} - (1 - x - \frac{1}{1 - e^{x}}) = - (\frac{1}{2} - x - \frac{1}{1 - e^{x}})

is true

Commented by MJS last updated on 28/Jun/20

sorry I know no books on this topic \dots

Answered by abdomathmax last updated on 28/Jun/20

I (a, b) is centre of symetry \Leftrightarrow f (2 a - x) = 2 b - f (x)

I (0, \frac{1}{2}) we must prove f (2 \times 0 - x) = 2 \times \frac{1}{2} - f (x) \Rightarrow

f (- x) = 1 - f (x) we have

f (- x) = - x + \frac{1}{1 - e^{- x}} = - x + \frac{e^{x}}{e^{x} - 1} = \frac{(1 - x) e^{x} + x}{e^{x} - 1}

1 - f (x) = 1 - x - \frac{1}{1 - e^{x}} = \frac{1 - e^{x} - x + {xe}^{x} - 1}{1 - e^{x}}

= \frac{- x + (x - 1) e^{x}}{1 - e^{x}} = \frac{x + (1 - x) e^{x}}{e^{x} - 1}

t b e e q u a l i t y i s p r o v e d . .

Commented by Rio Michael last updated on 28/Jun/20

thank you all