Problem with system of logarythmic equation.
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So I have this problem with a system of logarytmic equations. Specifically how to get rid of the (ln(x))^2 in order to solve this one.
I know you can get This as a solution for the first equation.
My problem is how to use this in the second one.
I can also provide the solution for the problem, however I don't know which steps to do how to get there.Solution fo the problem
Thanks in advance
ln(x) + ln(y^2)=4 ;
(ln(x))^2 - 3ln(xy)=-5
logarithms systems-of-equations nonlinear-system
$endgroup$
add a comment |
$begingroup$
So I have this problem with a system of logarytmic equations. Specifically how to get rid of the (ln(x))^2 in order to solve this one.
I know you can get This as a solution for the first equation.
My problem is how to use this in the second one.
I can also provide the solution for the problem, however I don't know which steps to do how to get there.Solution fo the problem
Thanks in advance
ln(x) + ln(y^2)=4 ;
(ln(x))^2 - 3ln(xy)=-5
logarithms systems-of-equations nonlinear-system
$endgroup$
add a comment |
$begingroup$
So I have this problem with a system of logarytmic equations. Specifically how to get rid of the (ln(x))^2 in order to solve this one.
I know you can get This as a solution for the first equation.
My problem is how to use this in the second one.
I can also provide the solution for the problem, however I don't know which steps to do how to get there.Solution fo the problem
Thanks in advance
ln(x) + ln(y^2)=4 ;
(ln(x))^2 - 3ln(xy)=-5
logarithms systems-of-equations nonlinear-system
$endgroup$
So I have this problem with a system of logarytmic equations. Specifically how to get rid of the (ln(x))^2 in order to solve this one.
I know you can get This as a solution for the first equation.
My problem is how to use this in the second one.
I can also provide the solution for the problem, however I don't know which steps to do how to get there.Solution fo the problem
Thanks in advance
ln(x) + ln(y^2)=4 ;
(ln(x))^2 - 3ln(xy)=-5
logarithms systems-of-equations nonlinear-system
logarithms systems-of-equations nonlinear-system
asked Dec 30 '18 at 9:54
user630424user630424
82
82
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add a comment |
2 Answers
2
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oldest
votes
$begingroup$
$x>0$ and from here $y>0$.
Let $ln{y}=t$.
Thus, $ln{x}=4-2t$ and we obtain:
$$(4-2t)^2-3(2-2t)-3t=-5$$ or
$$4t^2-13t+9=0.$$
Can you end it now?
I got the following answer.
$$left{(e^2,e),left(frac{1}{sqrt{e}},e^{frac{9}{4}}right)right}$$
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$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
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@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
add a comment |
$begingroup$
Assume $x$ and $y$ to be positive. Then
$$log()+log(y^2)=4 implies log(x)+2log(y)=4 tag1$$
$$log^2(x)-3log(xy)=5 implies log^2(x)-3 log(x)-3log(y)=5 tag 2$$
From $(1)$, express $log(y)$ as a function of $log(x)$. Replace in $(2)$ and you have a quadratic equation in $log(x)$.
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$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
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@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
add a comment |
Your Answer
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
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active
oldest
votes
$begingroup$
$x>0$ and from here $y>0$.
Let $ln{y}=t$.
Thus, $ln{x}=4-2t$ and we obtain:
$$(4-2t)^2-3(2-2t)-3t=-5$$ or
$$4t^2-13t+9=0.$$
Can you end it now?
I got the following answer.
$$left{(e^2,e),left(frac{1}{sqrt{e}},e^{frac{9}{4}}right)right}$$
$endgroup$
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
add a comment |
$begingroup$
$x>0$ and from here $y>0$.
Let $ln{y}=t$.
Thus, $ln{x}=4-2t$ and we obtain:
$$(4-2t)^2-3(2-2t)-3t=-5$$ or
$$4t^2-13t+9=0.$$
Can you end it now?
I got the following answer.
$$left{(e^2,e),left(frac{1}{sqrt{e}},e^{frac{9}{4}}right)right}$$
$endgroup$
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
add a comment |
$begingroup$
$x>0$ and from here $y>0$.
Let $ln{y}=t$.
Thus, $ln{x}=4-2t$ and we obtain:
$$(4-2t)^2-3(2-2t)-3t=-5$$ or
$$4t^2-13t+9=0.$$
Can you end it now?
I got the following answer.
$$left{(e^2,e),left(frac{1}{sqrt{e}},e^{frac{9}{4}}right)right}$$
$endgroup$
$x>0$ and from here $y>0$.
Let $ln{y}=t$.
Thus, $ln{x}=4-2t$ and we obtain:
$$(4-2t)^2-3(2-2t)-3t=-5$$ or
$$4t^2-13t+9=0.$$
Can you end it now?
I got the following answer.
$$left{(e^2,e),left(frac{1}{sqrt{e}},e^{frac{9}{4}}right)right}$$
answered Dec 30 '18 at 9:59
Michael RozenbergMichael Rozenberg
111k1897201
111k1897201
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
add a comment |
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
Yes! Thank you very much Sir! I can get that same solution now.
$endgroup$
– user630424
Dec 30 '18 at 10:10
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
$begingroup$
@user630424 You are welcome!
$endgroup$
– Michael Rozenberg
Dec 30 '18 at 10:11
add a comment |
$begingroup$
Assume $x$ and $y$ to be positive. Then
$$log()+log(y^2)=4 implies log(x)+2log(y)=4 tag1$$
$$log^2(x)-3log(xy)=5 implies log^2(x)-3 log(x)-3log(y)=5 tag 2$$
From $(1)$, express $log(y)$ as a function of $log(x)$. Replace in $(2)$ and you have a quadratic equation in $log(x)$.
$endgroup$
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
add a comment |
$begingroup$
Assume $x$ and $y$ to be positive. Then
$$log()+log(y^2)=4 implies log(x)+2log(y)=4 tag1$$
$$log^2(x)-3log(xy)=5 implies log^2(x)-3 log(x)-3log(y)=5 tag 2$$
From $(1)$, express $log(y)$ as a function of $log(x)$. Replace in $(2)$ and you have a quadratic equation in $log(x)$.
$endgroup$
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
add a comment |
$begingroup$
Assume $x$ and $y$ to be positive. Then
$$log()+log(y^2)=4 implies log(x)+2log(y)=4 tag1$$
$$log^2(x)-3log(xy)=5 implies log^2(x)-3 log(x)-3log(y)=5 tag 2$$
From $(1)$, express $log(y)$ as a function of $log(x)$. Replace in $(2)$ and you have a quadratic equation in $log(x)$.
$endgroup$
Assume $x$ and $y$ to be positive. Then
$$log()+log(y^2)=4 implies log(x)+2log(y)=4 tag1$$
$$log^2(x)-3log(xy)=5 implies log^2(x)-3 log(x)-3log(y)=5 tag 2$$
From $(1)$, express $log(y)$ as a function of $log(x)$. Replace in $(2)$ and you have a quadratic equation in $log(x)$.
answered Dec 30 '18 at 10:03
Claude LeiboviciClaude Leibovici
126k1158134
126k1158134
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
add a comment |
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
I see, when we then substitute ln(x) = t we get the same equation as Michael's. Thank you vey much for your help!
$endgroup$
– user630424
Dec 30 '18 at 10:12
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
$begingroup$
@user630424. You are welcome !
$endgroup$
– Claude Leibovici
Dec 30 '18 at 10:28
add a comment |
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