Solve the functional equation $fracf(x)f(y)=fleft( fracx-yf(y) right)$The functional equation $f(y) + fleft(frac1yright) = 0$D'alembert functional equationSolve the functional equation $ q , fracf(x+1)f(x)=frach(x+1)h(x). $How to solve the functional equation $f(x+a)=f(x)+a$The function $f (x) = f left (frac x2 right ) + f left (frac x2 + frac 12right)$Solve the functional Equation:- $f(x+y)=3^xf(y)+9^yf(x)forall x,yin mathbbR$Solving functional equation $1=e^−frac2kf(ax+bx^2)+2f(x)$How to solve functional equation?Solve Functional Equation $3f(x)=fleft(fracx3right)+fleft(frac1+x3right)$Suggestion for a functional equation $f'left(fracaxright)=fracxf(x)$ where $f:(0,infty)to(0,infty)$ is differentiable
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Solve the functional equation $fracf(x)f(y)=fleft( fracx-yf(y) right)$
The functional equation $f(y) + fleft(frac1yright) = 0$D'alembert functional equationSolve the functional equation $ q , fracf(x+1)f(x)=frach(x+1)h(x). $How to solve the functional equation $f(x+a)=f(x)+a$The function $f (x) = f left (frac x2 right ) + f left (frac x2 + frac 12right)$Solve the functional Equation:- $f(x+y)=3^xf(y)+9^yf(x)forall x,yin mathbbR$Solving functional equation $1=e^−frac2kf(ax+bx^2)+2f(x)$How to solve functional equation?Solve Functional Equation $3f(x)=fleft(fracx3right)+fleft(frac1+x3right)$Suggestion for a functional equation $f'left(fracaxright)=fracxf(x)$ where $f:(0,infty)to(0,infty)$ is differentiable
$begingroup$
Solve the functional equation
$$
fracf(x)f(y)=fleft( fracx-yf(y) right),
$$
here $f: mathbbR to mathbbR$ and $f$ is differentiable at $x=0.$
By set $x=y$ we get $f(0)=1$.
Differentiate
$$
fracf'(x)f(y)=f'left( fracx-yf(y) right) cdot frac1f(y)
$$
and set $x=0$ get
$$
f'(0)=f'left( frac-yf(y) right).
$$
So we reduce the problem to the problem to describe all function $g$
$$
gleft( -fracyg(y) right)=const.
$$
I have no more ideas.
functional-equations
edited 9 hours ago
Martin Sleziak
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
$endgroup$
add a comment |
$begingroup$
Solve the functional equation
$$
fracf(x)f(y)=fleft( fracx-yf(y) right),
$$
here $f: mathbbR to mathbbR$ and $f$ is differentiable at $x=0.$
By set $x=y$ we get $f(0)=1$.
Differentiate
$$
fracf'(x)f(y)=f'left( fracx-yf(y) right) cdot frac1f(y)
$$
and set $x=0$ get
$$
f'(0)=f'left( frac-yf(y) right).
$$
So we reduce the problem to the problem to describe all function $g$
$$
gleft( -fracyg(y) right)=const.
$$
I have no more ideas.
functional-equations
edited 9 hours ago
Martin Sleziak
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
$endgroup$
$begingroup$
Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
$endgroup$
– pointer
Jun 6 '15 at 11:42
$begingroup$
What is the right differentiation?
$endgroup$
– Leox
Jun 6 '15 at 11:44
$begingroup$
Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
$endgroup$
– Mann
Jun 6 '15 at 11:46
$begingroup$
@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
$endgroup$
– Leox
Jun 6 '15 at 12:21
add a comment |
$begingroup$
Solve the functional equation
$$
fracf(x)f(y)=fleft( fracx-yf(y) right),
$$
here $f: mathbbR to mathbbR$ and $f$ is differentiable at $x=0.$
By set $x=y$ we get $f(0)=1$.
Differentiate
$$
fracf'(x)f(y)=f'left( fracx-yf(y) right) cdot frac1f(y)
$$
and set $x=0$ get
$$
f'(0)=f'left( frac-yf(y) right).
$$
So we reduce the problem to the problem to describe all function $g$
$$
gleft( -fracyg(y) right)=const.
$$
I have no more ideas.
functional-equations
edited 9 hours ago
Martin Sleziak
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
$endgroup$
Solve the functional equation
$$
fracf(x)f(y)=fleft( fracx-yf(y) right),
$$
here $f: mathbbR to mathbbR$ and $f$ is differentiable at $x=0.$
By set $x=y$ we get $f(0)=1$.
Differentiate
$$
fracf'(x)f(y)=f'left( fracx-yf(y) right) cdot frac1f(y)
$$
and set $x=0$ get
$$
f'(0)=f'left( frac-yf(y) right).
$$
So we reduce the problem to the problem to describe all function $g$
$$
gleft( -fracyg(y) right)=const.
$$
I have no more ideas.
functional-equations
functional-equations
edited 9 hours ago
Martin Sleziak
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
edited 9 hours ago
Martin Sleziak
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
edited 9 hours ago
Martin Sleziak
45k10122277
edited 9 hours ago
Martin Sleziak
45k10122277
edited 9 hours ago
Martin Sleziak
45k10122277
45k10122277
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
asked Jun 6 '15 at 11:15
LeoxLeox
5,3481424
5,3481424
$begingroup$
Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
$endgroup$
– pointer
Jun 6 '15 at 11:42
$begingroup$
What is the right differentiation?
$endgroup$
– Leox
Jun 6 '15 at 11:44
$begingroup$
Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
$endgroup$
– Mann
Jun 6 '15 at 11:46
$begingroup$
@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
$endgroup$
– Leox
Jun 6 '15 at 12:21
add a comment |
$begingroup$
Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
$endgroup$
– pointer
Jun 6 '15 at 11:42
$begingroup$
What is the right differentiation?
$endgroup$
– Leox
Jun 6 '15 at 11:44
$begingroup$
Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
$endgroup$
– Mann
Jun 6 '15 at 11:46
$begingroup$
@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
$endgroup$
– Leox
Jun 6 '15 at 12:21
$begingroup$
Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
$endgroup$
– pointer
Jun 6 '15 at 11:42
$begingroup$
Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
$endgroup$
– pointer
Jun 6 '15 at 11:42
$begingroup$
What is the right differentiation?
$endgroup$
– Leox
Jun 6 '15 at 11:44
$begingroup$
What is the right differentiation?
$endgroup$
– Leox
Jun 6 '15 at 11:44
$begingroup$
Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
$endgroup$
– Mann
Jun 6 '15 at 11:46
$begingroup$
Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
$endgroup$
– Mann
Jun 6 '15 at 11:46
$begingroup$
@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
$endgroup$
– Leox
Jun 6 '15 at 12:21
$begingroup$
@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
$endgroup$
– Leox
Jun 6 '15 at 12:21
add a comment |
2 Answers
2
active
oldest
votes
$begingroup$
Let us define our variables as $x=x+h$ and $y=x$, for convenience.
Then our functional equation becomes,
$$fracf(x+h)f(x)=fleft( frachf(x) right)$$
With $h=0$ and $x=0$, we can get that $f(0)=1$. (If $f$ exists and is finite as well for a single $x_0$).
Using $f(x+h)=f(x)times fleft( frachf(x) right) $ and the definition of derivative,
$$f'(x)=lim_limitsh to 0fracf(x+h)-f(x)h=lim_limitsh to 0;f(x) times fracfleft( frachf(x) right)-1h=lim_limitsh to 0fracfleft( frachf(x) right)-1frachf(x)$$
Then, $lim_limitsx to x_0 f'(x)$ exists for arbitrary $x_0$ and is equal to $f'(0)$. Hence, $f'(x)$ is continuous 'almost everywhere' or everywhere and is equal to $f'(0)$. We can integrate $f'(x)$ to obtain a linear straight line, because Null sets have measure $0$. The null set only consists the point where $f(x) $ doesn't exist.
Under the assumption that $f(x)$ is finite at the point of inspection $x$ and also the fact that $f(0)=1$. We see that this limit is simply $f'(0)$ which exists. We get $$f'(x)=f'(0)$$
Which on integrating gives general solution, $$f(x)=f'(0)x+c=ax+c$$
also $f(0)=1implies c=1$ which gives $$f(x)=ax+1$$ except possibly on a Null set which contains the points $x$ where $f(x)$ doesn't exist or $f(x)=0$
edited 9 hours ago
Martin Sleziak
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
$endgroup$
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
add a comment |
$begingroup$
Let $f(x)=x+1$. It is obviously a solution.
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
$endgroup$
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
Let us define our variables as $x=x+h$ and $y=x$, for convenience.
Then our functional equation becomes,
$$fracf(x+h)f(x)=fleft( frachf(x) right)$$
With $h=0$ and $x=0$, we can get that $f(0)=1$. (If $f$ exists and is finite as well for a single $x_0$).
Using $f(x+h)=f(x)times fleft( frachf(x) right) $ and the definition of derivative,
$$f'(x)=lim_limitsh to 0fracf(x+h)-f(x)h=lim_limitsh to 0;f(x) times fracfleft( frachf(x) right)-1h=lim_limitsh to 0fracfleft( frachf(x) right)-1frachf(x)$$
Then, $lim_limitsx to x_0 f'(x)$ exists for arbitrary $x_0$ and is equal to $f'(0)$. Hence, $f'(x)$ is continuous 'almost everywhere' or everywhere and is equal to $f'(0)$. We can integrate $f'(x)$ to obtain a linear straight line, because Null sets have measure $0$. The null set only consists the point where $f(x) $ doesn't exist.
Under the assumption that $f(x)$ is finite at the point of inspection $x$ and also the fact that $f(0)=1$. We see that this limit is simply $f'(0)$ which exists. We get $$f'(x)=f'(0)$$
Which on integrating gives general solution, $$f(x)=f'(0)x+c=ax+c$$
also $f(0)=1implies c=1$ which gives $$f(x)=ax+1$$ except possibly on a Null set which contains the points $x$ where $f(x)$ doesn't exist or $f(x)=0$
edited 9 hours ago
Martin Sleziak
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
$endgroup$
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
add a comment |
$begingroup$
Let us define our variables as $x=x+h$ and $y=x$, for convenience.
Then our functional equation becomes,
$$fracf(x+h)f(x)=fleft( frachf(x) right)$$
With $h=0$ and $x=0$, we can get that $f(0)=1$. (If $f$ exists and is finite as well for a single $x_0$).
Using $f(x+h)=f(x)times fleft( frachf(x) right) $ and the definition of derivative,
$$f'(x)=lim_limitsh to 0fracf(x+h)-f(x)h=lim_limitsh to 0;f(x) times fracfleft( frachf(x) right)-1h=lim_limitsh to 0fracfleft( frachf(x) right)-1frachf(x)$$
Then, $lim_limitsx to x_0 f'(x)$ exists for arbitrary $x_0$ and is equal to $f'(0)$. Hence, $f'(x)$ is continuous 'almost everywhere' or everywhere and is equal to $f'(0)$. We can integrate $f'(x)$ to obtain a linear straight line, because Null sets have measure $0$. The null set only consists the point where $f(x) $ doesn't exist.
Under the assumption that $f(x)$ is finite at the point of inspection $x$ and also the fact that $f(0)=1$. We see that this limit is simply $f'(0)$ which exists. We get $$f'(x)=f'(0)$$
Which on integrating gives general solution, $$f(x)=f'(0)x+c=ax+c$$
also $f(0)=1implies c=1$ which gives $$f(x)=ax+1$$ except possibly on a Null set which contains the points $x$ where $f(x)$ doesn't exist or $f(x)=0$
edited 9 hours ago
Martin Sleziak
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
$endgroup$
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
add a comment |
$begingroup$
Let us define our variables as $x=x+h$ and $y=x$, for convenience.
Then our functional equation becomes,
$$fracf(x+h)f(x)=fleft( frachf(x) right)$$
With $h=0$ and $x=0$, we can get that $f(0)=1$. (If $f$ exists and is finite as well for a single $x_0$).
Using $f(x+h)=f(x)times fleft( frachf(x) right) $ and the definition of derivative,
$$f'(x)=lim_limitsh to 0fracf(x+h)-f(x)h=lim_limitsh to 0;f(x) times fracfleft( frachf(x) right)-1h=lim_limitsh to 0fracfleft( frachf(x) right)-1frachf(x)$$
Then, $lim_limitsx to x_0 f'(x)$ exists for arbitrary $x_0$ and is equal to $f'(0)$. Hence, $f'(x)$ is continuous 'almost everywhere' or everywhere and is equal to $f'(0)$. We can integrate $f'(x)$ to obtain a linear straight line, because Null sets have measure $0$. The null set only consists the point where $f(x) $ doesn't exist.
Under the assumption that $f(x)$ is finite at the point of inspection $x$ and also the fact that $f(0)=1$. We see that this limit is simply $f'(0)$ which exists. We get $$f'(x)=f'(0)$$
Which on integrating gives general solution, $$f(x)=f'(0)x+c=ax+c$$
also $f(0)=1implies c=1$ which gives $$f(x)=ax+1$$ except possibly on a Null set which contains the points $x$ where $f(x)$ doesn't exist or $f(x)=0$
edited 9 hours ago
Martin Sleziak
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
$endgroup$
Let us define our variables as $x=x+h$ and $y=x$, for convenience.
Then our functional equation becomes,
$$fracf(x+h)f(x)=fleft( frachf(x) right)$$
With $h=0$ and $x=0$, we can get that $f(0)=1$. (If $f$ exists and is finite as well for a single $x_0$).
Using $f(x+h)=f(x)times fleft( frachf(x) right) $ and the definition of derivative,
$$f'(x)=lim_limitsh to 0fracf(x+h)-f(x)h=lim_limitsh to 0;f(x) times fracfleft( frachf(x) right)-1h=lim_limitsh to 0fracfleft( frachf(x) right)-1frachf(x)$$
Then, $lim_limitsx to x_0 f'(x)$ exists for arbitrary $x_0$ and is equal to $f'(0)$. Hence, $f'(x)$ is continuous 'almost everywhere' or everywhere and is equal to $f'(0)$. We can integrate $f'(x)$ to obtain a linear straight line, because Null sets have measure $0$. The null set only consists the point where $f(x) $ doesn't exist.
Under the assumption that $f(x)$ is finite at the point of inspection $x$ and also the fact that $f(0)=1$. We see that this limit is simply $f'(0)$ which exists. We get $$f'(x)=f'(0)$$
Which on integrating gives general solution, $$f(x)=f'(0)x+c=ax+c$$
also $f(0)=1implies c=1$ which gives $$f(x)=ax+1$$ except possibly on a Null set which contains the points $x$ where $f(x)$ doesn't exist or $f(x)=0$
edited 9 hours ago
Martin Sleziak
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
edited 9 hours ago
Martin Sleziak
45k10122277
edited 9 hours ago
Martin Sleziak
45k10122277
edited 9 hours ago
Martin Sleziak
45k10122277
45k10122277
answered Jun 6 '15 at 12:24
MannMann
2,3501727
answered Jun 6 '15 at 12:24
MannMann
2,3501727
answered Jun 6 '15 at 12:24
MannMann
2,3501727
2,3501727
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
add a comment |
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
2
2
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
Very beautiful solution!
$endgroup$
– pointer
Jun 6 '15 at 12:32
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
So, the only linear functions?
$endgroup$
– Leox
Jun 6 '15 at 12:38
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
$begingroup$
Only Linear, yes.
$endgroup$
– Mann
Mar 29 at 23:37
add a comment |
$begingroup$
Let $f(x)=x+1$. It is obviously a solution.
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
$endgroup$
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
add a comment |
$begingroup$
Let $f(x)=x+1$. It is obviously a solution.
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
$endgroup$
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
add a comment |
$begingroup$
Let $f(x)=x+1$. It is obviously a solution.
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
$endgroup$
Let $f(x)=x+1$. It is obviously a solution.
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
answered Jun 6 '15 at 11:17
Alex FokAlex Fok
3,866818
3,866818
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Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
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– pointer
Jun 6 '15 at 11:34
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what about nonlinear solutions?
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– Leox
Jun 6 '15 at 11:37
add a comment |
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
Moreover, $ax+1$ is a solution for any $a$ and there is no other linear solution.
$endgroup$
– pointer
Jun 6 '15 at 11:34
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
$begingroup$
what about nonlinear solutions?
$endgroup$
– Leox
Jun 6 '15 at 11:37
add a comment |
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Leox if $f$ is only differentiable at $x=0$ I don't think you can differentiate it like that.
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– pointer
Jun 6 '15 at 11:42
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What is the right differentiation?
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– Leox
Jun 6 '15 at 11:44
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Define a variable $h$ , where $y=x$ and $x=x+h$ and look for derivative as $hto 0$ at $x=0$
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– Mann
Jun 6 '15 at 11:46
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@Mann Do you mean I have to find this limit at $h to 0$ $$ frac1hleft(fleft(fracx+h-yf(y)right) - fleft(fracx-yf(y)right) right)? $$
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– Leox
Jun 6 '15 at 12:21