Exploring PDE Solutions in Polar Coordinates

In summary, the conversation discusses solving a PDE with polar coordinates and determining whether u_x leads to u_r or u_theta. It is determined that the chain rule should be used and the partial derivatives for r and theta are calculated. The final conclusion is that u_x leads to u_r.
  • #1
Dustinsfl
2,281
5
Solving a PDE with Polar coordinates

[tex]yu_x-xu_y=0[/tex]

[tex]x=r\cos{\theta} \ \mbox{and} \ y=r\sin{\theta}[/tex]

[tex]u(r,\theta)[/tex]

Does [tex]u_x\Rightarrow u_r \ \mbox{or} \ u_{\theta} \ \mbox{and why?}[/tex]

Thanks.
 
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  • #2
Use the chain rule.

[tex]\frac{\partial u}{\partial x}= \frac{\partial r}{\partial x}\frac{\partial u}{\partial r}+ \frac{\partial \theta}{\partial x}\frac{\partial u}{\partial \theta}[/tex]
and
[tex]\frac{\partial u}{\partial y}= \frac{\partial r}{\partial y}\frac{\partial u}{\partial r}+ \frac{\partial \theta}{\partial y}\frac{\partial u}{\partial \theta}[/tex]


Since [itex]r= (x^2+ y^2)^{1/2}[/itex],
[tex]\frac{\partial r}{\partial x}= \frac{1}{2}(x^2+ y^2)^{-1/2}(2x)[/tex]
[tex]= \frac{x}{(x^2+ y^2)^{1/2}}= \frac{r cos(\theta)}{r}= cos(\theta)[/itex]
and
[tex]\frac{\partial r}{\partial y}= \frac{1}{3}(x^2+ y^2)^}{-1/2}(2x)[/tex]
[tex]= \frac{y}{(x^2+ y^2)^{1/2}}= \frac{r sin(\theta)}{r}= sin(\theta)[/itex]

Since [itex]\theta= tan^{-1}(y/x)[/itex]
[tex]\frac{\partial \theta}{\partial x}= \frac{1}{1+\frac{y^2}{x^2}}\left(-\frac{y}{x^2}\right)[/tex]
[tex]= -\frac{y}{x^2+ y^2}= -\frac{r sin(\theta)}{r^2}= -\frac{1}{r}sin(\theta)[/tex]
and
[tex]\frac{\partial \theta}{\partial y}= \frac{1}{1+ \frac{y^2}{x^2}}\left(\frac{1}{x}\right)[/tex]
[tex]= \frac{x}{x^2+ y^2}= \frac{r cos(\theta)}{r^2}= \frac{1}{r}cos(\theta)[/itex]
 
  • #3
Thanks.
 

1. What are PDE polar coordinates?

PDE polar coordinates are a type of coordinate system used in mathematics, specifically in solving partial differential equations (PDEs). Unlike the traditional rectangular coordinates, polar coordinates use a radial distance and angle to describe a point in a plane.

2. How are PDE polar coordinates related to PDEs?

PDE polar coordinates are used in solving PDEs because they allow for a simpler representation of the PDEs in terms of radial and angular derivatives. This can make it easier to find solutions to PDEs involving circular or symmetric domains.

3. What are the advantages of using PDE polar coordinates?

One advantage of using PDE polar coordinates is that they can simplify the equations and make them easier to solve. They are also useful for visualizing solutions to PDEs, as they can represent circular or symmetric patterns more intuitively.

4. Can PDE polar coordinates be used for any type of PDE?

PDE polar coordinates are most commonly used for PDEs involving circular or symmetric domains. However, they can also be used for some non-symmetric PDEs, depending on the boundary conditions and other factors.

5. How do I convert from rectangular coordinates to PDE polar coordinates?

To convert from rectangular coordinates (x,y) to PDE polar coordinates (r,θ), you can use the following formulas:
r = √(x² + y²)
θ = tan⁻¹ (y/x)
where r represents the radial distance and θ represents the angle in radians.

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