Finding Density Function of Transformation












0















Let $Y$ be uniformly distributed over the interval $(−1, 3)$. Find the probability density function
of $U = Y^2$.




Attempted solution:



We know that



$$
Y=begin{cases}
1/4 && -1 leq y leq 3\
0 && text{elsewhere}
end{cases}
$$



We find the CDF of $U$ using $Y$
$$
P(U leq u) = P(Y^2 leq u) = P(-sqrt u leq Y leq sqrt u)
$$

$$
= int_{-sqrt u}^{sqrt u}frac{1}{4}dy = frac{sqrt u}{2}
$$



Therefore



$$
f(u) = frac{d}{du}frac{sqrt u}{2} = frac{1}{4sqrt u} qquad 0 leq u leq 9
$$



However, the answer is:



$$
f(u) = begin{cases} frac{1}{4sqrt u} && 0 leq u < 1\
frac{1}{8sqrt u} && 1 leq u leq 9
end{cases}
$$



Logically, since Y is between -1 and 3, this makes sense to me since there are two values of Y for which U will be between 0 and 1 for each value, and only one value of Y for which U is between 1 and 9.



Despite this, why didn't the computation pick up on this? Where did I go wrong?










share|cite|improve this question
























  • The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
    – user247327
    Jan 3 at 22:42












  • My mistake. It should be $U = Y^2$. Sorry.
    – Bryden C
    Jan 3 at 22:44










  • The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
    – LoveTooNap29
    Jan 3 at 22:51
















0















Let $Y$ be uniformly distributed over the interval $(−1, 3)$. Find the probability density function
of $U = Y^2$.




Attempted solution:



We know that



$$
Y=begin{cases}
1/4 && -1 leq y leq 3\
0 && text{elsewhere}
end{cases}
$$



We find the CDF of $U$ using $Y$
$$
P(U leq u) = P(Y^2 leq u) = P(-sqrt u leq Y leq sqrt u)
$$

$$
= int_{-sqrt u}^{sqrt u}frac{1}{4}dy = frac{sqrt u}{2}
$$



Therefore



$$
f(u) = frac{d}{du}frac{sqrt u}{2} = frac{1}{4sqrt u} qquad 0 leq u leq 9
$$



However, the answer is:



$$
f(u) = begin{cases} frac{1}{4sqrt u} && 0 leq u < 1\
frac{1}{8sqrt u} && 1 leq u leq 9
end{cases}
$$



Logically, since Y is between -1 and 3, this makes sense to me since there are two values of Y for which U will be between 0 and 1 for each value, and only one value of Y for which U is between 1 and 9.



Despite this, why didn't the computation pick up on this? Where did I go wrong?










share|cite|improve this question
























  • The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
    – user247327
    Jan 3 at 22:42












  • My mistake. It should be $U = Y^2$. Sorry.
    – Bryden C
    Jan 3 at 22:44










  • The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
    – LoveTooNap29
    Jan 3 at 22:51














0












0








0








Let $Y$ be uniformly distributed over the interval $(−1, 3)$. Find the probability density function
of $U = Y^2$.




Attempted solution:



We know that



$$
Y=begin{cases}
1/4 && -1 leq y leq 3\
0 && text{elsewhere}
end{cases}
$$



We find the CDF of $U$ using $Y$
$$
P(U leq u) = P(Y^2 leq u) = P(-sqrt u leq Y leq sqrt u)
$$

$$
= int_{-sqrt u}^{sqrt u}frac{1}{4}dy = frac{sqrt u}{2}
$$



Therefore



$$
f(u) = frac{d}{du}frac{sqrt u}{2} = frac{1}{4sqrt u} qquad 0 leq u leq 9
$$



However, the answer is:



$$
f(u) = begin{cases} frac{1}{4sqrt u} && 0 leq u < 1\
frac{1}{8sqrt u} && 1 leq u leq 9
end{cases}
$$



Logically, since Y is between -1 and 3, this makes sense to me since there are two values of Y for which U will be between 0 and 1 for each value, and only one value of Y for which U is between 1 and 9.



Despite this, why didn't the computation pick up on this? Where did I go wrong?










share|cite|improve this question
















Let $Y$ be uniformly distributed over the interval $(−1, 3)$. Find the probability density function
of $U = Y^2$.




Attempted solution:



We know that



$$
Y=begin{cases}
1/4 && -1 leq y leq 3\
0 && text{elsewhere}
end{cases}
$$



We find the CDF of $U$ using $Y$
$$
P(U leq u) = P(Y^2 leq u) = P(-sqrt u leq Y leq sqrt u)
$$

$$
= int_{-sqrt u}^{sqrt u}frac{1}{4}dy = frac{sqrt u}{2}
$$



Therefore



$$
f(u) = frac{d}{du}frac{sqrt u}{2} = frac{1}{4sqrt u} qquad 0 leq u leq 9
$$



However, the answer is:



$$
f(u) = begin{cases} frac{1}{4sqrt u} && 0 leq u < 1\
frac{1}{8sqrt u} && 1 leq u leq 9
end{cases}
$$



Logically, since Y is between -1 and 3, this makes sense to me since there are two values of Y for which U will be between 0 and 1 for each value, and only one value of Y for which U is between 1 and 9.



Despite this, why didn't the computation pick up on this? Where did I go wrong?







probability-distributions






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share|cite|improve this question













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edited Jan 3 at 22:43

























asked Jan 3 at 22:35









Bryden C

30418




30418












  • The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
    – user247327
    Jan 3 at 22:42












  • My mistake. It should be $U = Y^2$. Sorry.
    – Bryden C
    Jan 3 at 22:44










  • The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
    – LoveTooNap29
    Jan 3 at 22:51


















  • The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
    – user247327
    Jan 3 at 22:42












  • My mistake. It should be $U = Y^2$. Sorry.
    – Bryden C
    Jan 3 at 22:44










  • The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
    – LoveTooNap29
    Jan 3 at 22:51
















The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
– user247327
Jan 3 at 22:42






The statement of the problem, that you apparently copied, says "U= Y" but your calculation uses "$U= Y^2$. Which is it?
– user247327
Jan 3 at 22:42














My mistake. It should be $U = Y^2$. Sorry.
– Bryden C
Jan 3 at 22:44




My mistake. It should be $U = Y^2$. Sorry.
– Bryden C
Jan 3 at 22:44












The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
– LoveTooNap29
Jan 3 at 22:51




The square function is not injective on $(-1,3)$ so taking the inversion as you do requires some care.
– LoveTooNap29
Jan 3 at 22:51










1 Answer
1






active

oldest

votes


















1














If $1<u<9$, then



$$P(-sqrt{u}leq Y < sqrt{u}) = P(-1leq Y leq sqrt{u}) = int_{-1}^{sqrt{u}} 1/4 dy $$



This should solve your problem. Remember that Y has 0 density outside of the interval [-1,3].






share|cite|improve this answer








New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.


















  • Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
    – Bryden C
    Jan 3 at 22:55












  • @BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
    – Kavi Rama Murthy
    2 days ago











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1 Answer
1






active

oldest

votes








1 Answer
1






active

oldest

votes









active

oldest

votes






active

oldest

votes









1














If $1<u<9$, then



$$P(-sqrt{u}leq Y < sqrt{u}) = P(-1leq Y leq sqrt{u}) = int_{-1}^{sqrt{u}} 1/4 dy $$



This should solve your problem. Remember that Y has 0 density outside of the interval [-1,3].






share|cite|improve this answer








New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.


















  • Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
    – Bryden C
    Jan 3 at 22:55












  • @BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
    – Kavi Rama Murthy
    2 days ago
















1














If $1<u<9$, then



$$P(-sqrt{u}leq Y < sqrt{u}) = P(-1leq Y leq sqrt{u}) = int_{-1}^{sqrt{u}} 1/4 dy $$



This should solve your problem. Remember that Y has 0 density outside of the interval [-1,3].






share|cite|improve this answer








New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.


















  • Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
    – Bryden C
    Jan 3 at 22:55












  • @BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
    – Kavi Rama Murthy
    2 days ago














1












1








1






If $1<u<9$, then



$$P(-sqrt{u}leq Y < sqrt{u}) = P(-1leq Y leq sqrt{u}) = int_{-1}^{sqrt{u}} 1/4 dy $$



This should solve your problem. Remember that Y has 0 density outside of the interval [-1,3].






share|cite|improve this answer








New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









If $1<u<9$, then



$$P(-sqrt{u}leq Y < sqrt{u}) = P(-1leq Y leq sqrt{u}) = int_{-1}^{sqrt{u}} 1/4 dy $$



This should solve your problem. Remember that Y has 0 density outside of the interval [-1,3].







share|cite|improve this answer








New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









share|cite|improve this answer



share|cite|improve this answer






New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









answered Jan 3 at 22:52









Leander Tilsted Kristensen

112




112




New contributor




Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.





New contributor





Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.






Leander Tilsted Kristensen is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.












  • Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
    – Bryden C
    Jan 3 at 22:55












  • @BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
    – Kavi Rama Murthy
    2 days ago


















  • Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
    – Bryden C
    Jan 3 at 22:55












  • @BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
    – Kavi Rama Murthy
    2 days ago
















Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
– Bryden C
Jan 3 at 22:55






Wouldn't $Y=0$ satisfy your second probability range? If so, then $U = Y^2 = 0$ but $U not in (1,9)$.
– Bryden C
Jan 3 at 22:55














@BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
– Kavi Rama Murthy
2 days ago




@BrydenC What you are saying does not make the answer wrong. The answer given by Leander Tilsted Kristensen is correct.
– Kavi Rama Murthy
2 days ago


















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