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How can we interpret the Jacobian of a matrix?
The 2019 Stack Overflow Developer Survey Results Are In
Unicorn Meta Zoo #1: Why another podcast?
Announcing the arrival of Valued Associate #679: Cesar ManaraHow do I determine the new boundaries of $D ^* = T(D)$ when using change of variable?Equality of mixed directional derivativesDeriving multivariate change of variables using vector calculusWhy $iint_Omega f(x,y)dxdy=iint_Sigmaf(x(u,v),y(u,v))|J|dudv$?Scaling factor required for change of coordinates for integration but not for integration of parametric forms of surfaces?Double integral using jacobianJacobian Matrix - unknown functionFinding the Jacobian matrix of an integral?Showing how the Jacobian connects volumes for change of coordinatesCalculate the area of the helicoid defined by the image of $phi:Dsubset mathbbRto mathbbR^3$; $phi (u, v) = (u (cos v), u (sin v), v)$
$begingroup$
Let $Ssubset mathbb R^2$. If $S$ has the area $dxdy$ in $(x,y)$, then it will have the area $$|det(x(u,v),y(u,v))|dudv$$ in $(u,v)$.
We commonly write $$dxdy=|det(x(u,v),y(u,v)|dudv.$$
I'm not really sure how to interpret it. Would it be the area of $S$ in $(u,v)$ ? But in this case,
$$|S|=iint_Sdxdy=iint_S|det(x(u,v),y(u,v))|dudv,$$
so $dS=dxdy=|det(x(u,v),y(u,v)|dudv$ ? But what does it really mean ?
real-analysis integration multivariable-calculus definite-integrals jacobian
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
$endgroup$
add a comment |
$begingroup$
Let $Ssubset mathbb R^2$. If $S$ has the area $dxdy$ in $(x,y)$, then it will have the area $$|det(x(u,v),y(u,v))|dudv$$ in $(u,v)$.
We commonly write $$dxdy=|det(x(u,v),y(u,v)|dudv.$$
I'm not really sure how to interpret it. Would it be the area of $S$ in $(u,v)$ ? But in this case,
$$|S|=iint_Sdxdy=iint_S|det(x(u,v),y(u,v))|dudv,$$
so $dS=dxdy=|det(x(u,v),y(u,v)|dudv$ ? But what does it really mean ?
real-analysis integration multivariable-calculus definite-integrals jacobian
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
$endgroup$
add a comment |
$begingroup$
Let $Ssubset mathbb R^2$. If $S$ has the area $dxdy$ in $(x,y)$, then it will have the area $$|det(x(u,v),y(u,v))|dudv$$ in $(u,v)$.
We commonly write $$dxdy=|det(x(u,v),y(u,v)|dudv.$$
I'm not really sure how to interpret it. Would it be the area of $S$ in $(u,v)$ ? But in this case,
$$|S|=iint_Sdxdy=iint_S|det(x(u,v),y(u,v))|dudv,$$
so $dS=dxdy=|det(x(u,v),y(u,v)|dudv$ ? But what does it really mean ?
real-analysis integration multivariable-calculus definite-integrals jacobian
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
$endgroup$
Let $Ssubset mathbb R^2$. If $S$ has the area $dxdy$ in $(x,y)$, then it will have the area $$|det(x(u,v),y(u,v))|dudv$$ in $(u,v)$.
We commonly write $$dxdy=|det(x(u,v),y(u,v)|dudv.$$
I'm not really sure how to interpret it. Would it be the area of $S$ in $(u,v)$ ? But in this case,
$$|S|=iint_Sdxdy=iint_S|det(x(u,v),y(u,v))|dudv,$$
so $dS=dxdy=|det(x(u,v),y(u,v)|dudv$ ? But what does it really mean ?
real-analysis integration multivariable-calculus definite-integrals jacobian
real-analysis integration multivariable-calculus definite-integrals jacobian
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
edited Mar 31 at 7:32
Rodrigo de Azevedo
13.2k41962
13.2k41962
asked Mar 29 at 12:03
user657324user657324
59510
asked Mar 29 at 12:03
user657324user657324
59510
asked Mar 29 at 12:03
user657324user657324
59510
59510
add a comment |
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
You have in the $(x,y)$-plane the standard area measure $rm d(x,y)$ and similarly in the "auxiliar" $(u,v)$-plane the standard area measure $rm d(u,v)$. When you are given a (maybe complicated) domain $S$ in the $(x,y)$-plane and want to compute its area then you often use an essentially 1:1 parametrization of $S$ from an auxiliar domain $hat S$ in the $(u,v)$-plane:
$$psi:quad hat Sto S,qquad (u,v)mapstobigl(x(u,v),y(u,v)bigr) .$$
Such a parametrization will in general not be area conserving. In fact an arbitrary "area element" centered at some point $(u,v)inhat S$ will be mapped to a smaller or larger area element centered at the point $bigl(x(u,v),y(u,v)bigr)in S$. The local area scaling factor turns out to be
$$|J_psi(u,v)|=bigl|rm det(dpsi(u,v))bigr| .$$
This is often written as
$$rm d(x,y)=bigl|rm det(dpsi(u,v))bigr|>rm d(u,v)$$
and appears in the integral as
$$rm area(S)=int_Srm d(x,y)=int_hat Sbigl|rm det(dpsi(u,v))bigr|>rm d(u,v) .$$
Note that I have just listed the usual formulas, I have proven nothing.
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
$endgroup$
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
add a comment |
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1 Answer
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1 Answer
1
active
oldest
votes
active
oldest
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active
oldest
votes
$begingroup$
You have in the $(x,y)$-plane the standard area measure $rm d(x,y)$ and similarly in the "auxiliar" $(u,v)$-plane the standard area measure $rm d(u,v)$. When you are given a (maybe complicated) domain $S$ in the $(x,y)$-plane and want to compute its area then you often use an essentially 1:1 parametrization of $S$ from an auxiliar domain $hat S$ in the $(u,v)$-plane:
$$psi:quad hat Sto S,qquad (u,v)mapstobigl(x(u,v),y(u,v)bigr) .$$
Such a parametrization will in general not be area conserving. In fact an arbitrary "area element" centered at some point $(u,v)inhat S$ will be mapped to a smaller or larger area element centered at the point $bigl(x(u,v),y(u,v)bigr)in S$. The local area scaling factor turns out to be
$$|J_psi(u,v)|=bigl|rm det(dpsi(u,v))bigr| .$$
This is often written as
$$rm d(x,y)=bigl|rm det(dpsi(u,v))bigr|>rm d(u,v)$$
and appears in the integral as
$$rm area(S)=int_Srm d(x,y)=int_hat Sbigl|rm det(dpsi(u,v))bigr|>rm d(u,v) .$$
Note that I have just listed the usual formulas, I have proven nothing.
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
$endgroup$
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
add a comment |
$begingroup$
You have in the $(x,y)$-plane the standard area measure $rm d(x,y)$ and similarly in the "auxiliar" $(u,v)$-plane the standard area measure $rm d(u,v)$. When you are given a (maybe complicated) domain $S$ in the $(x,y)$-plane and want to compute its area then you often use an essentially 1:1 parametrization of $S$ from an auxiliar domain $hat S$ in the $(u,v)$-plane:
$$psi:quad hat Sto S,qquad (u,v)mapstobigl(x(u,v),y(u,v)bigr) .$$
Such a parametrization will in general not be area conserving. In fact an arbitrary "area element" centered at some point $(u,v)inhat S$ will be mapped to a smaller or larger area element centered at the point $bigl(x(u,v),y(u,v)bigr)in S$. The local area scaling factor turns out to be
$$|J_psi(u,v)|=bigl|rm det(dpsi(u,v))bigr| .$$
This is often written as
$$rm d(x,y)=bigl|rm det(dpsi(u,v))bigr|>rm d(u,v)$$
and appears in the integral as
$$rm area(S)=int_Srm d(x,y)=int_hat Sbigl|rm det(dpsi(u,v))bigr|>rm d(u,v) .$$
Note that I have just listed the usual formulas, I have proven nothing.
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
$endgroup$
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
add a comment |
$begingroup$
You have in the $(x,y)$-plane the standard area measure $rm d(x,y)$ and similarly in the "auxiliar" $(u,v)$-plane the standard area measure $rm d(u,v)$. When you are given a (maybe complicated) domain $S$ in the $(x,y)$-plane and want to compute its area then you often use an essentially 1:1 parametrization of $S$ from an auxiliar domain $hat S$ in the $(u,v)$-plane:
$$psi:quad hat Sto S,qquad (u,v)mapstobigl(x(u,v),y(u,v)bigr) .$$
Such a parametrization will in general not be area conserving. In fact an arbitrary "area element" centered at some point $(u,v)inhat S$ will be mapped to a smaller or larger area element centered at the point $bigl(x(u,v),y(u,v)bigr)in S$. The local area scaling factor turns out to be
$$|J_psi(u,v)|=bigl|rm det(dpsi(u,v))bigr| .$$
This is often written as
$$rm d(x,y)=bigl|rm det(dpsi(u,v))bigr|>rm d(u,v)$$
and appears in the integral as
$$rm area(S)=int_Srm d(x,y)=int_hat Sbigl|rm det(dpsi(u,v))bigr|>rm d(u,v) .$$
Note that I have just listed the usual formulas, I have proven nothing.
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
$endgroup$
You have in the $(x,y)$-plane the standard area measure $rm d(x,y)$ and similarly in the "auxiliar" $(u,v)$-plane the standard area measure $rm d(u,v)$. When you are given a (maybe complicated) domain $S$ in the $(x,y)$-plane and want to compute its area then you often use an essentially 1:1 parametrization of $S$ from an auxiliar domain $hat S$ in the $(u,v)$-plane:
$$psi:quad hat Sto S,qquad (u,v)mapstobigl(x(u,v),y(u,v)bigr) .$$
Such a parametrization will in general not be area conserving. In fact an arbitrary "area element" centered at some point $(u,v)inhat S$ will be mapped to a smaller or larger area element centered at the point $bigl(x(u,v),y(u,v)bigr)in S$. The local area scaling factor turns out to be
$$|J_psi(u,v)|=bigl|rm det(dpsi(u,v))bigr| .$$
This is often written as
$$rm d(x,y)=bigl|rm det(dpsi(u,v))bigr|>rm d(u,v)$$
and appears in the integral as
$$rm area(S)=int_Srm d(x,y)=int_hat Sbigl|rm det(dpsi(u,v))bigr|>rm d(u,v) .$$
Note that I have just listed the usual formulas, I have proven nothing.
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
answered Mar 31 at 8:57
Christian BlatterChristian Blatter
176k8115328
176k8115328
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
add a comment |
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
1
1
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
$begingroup$
So, in some sense, it's the local area variation of an area element when we pass from $(u,v)$ to $(x,y)$, right ? (or when we pass from $(u,v)$ to $(x,y)$ ?)
$endgroup$
– user657324
Mar 31 at 9:17
add a comment |
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