Solving Equations in Spherical Coordinates with Elliptic Integrals

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In summary, the conversation is about solving an equation expressed in spherical coordinates that describes the magnetic field in the radial direction. The equation involves elliptic integrals and the problem is how to relate it to an equation with a power of 3/2. A trick is suggested using notations and a formula for the complete elliptic integrals is provided.
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boarie
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Dear gurus

Can anyone kindly enlighten me how to go abt solving the attached equation expressed in spherical coordinates? basically, it describes the magnetic field in the radial direction with r,theta and phi denoting the radius, polar and azimuthal angles.

My problem is that I do not know how to relate this equation to elliptic integral as it is to the power of 3/2. :confused: Any help is deeply appreciated. o:)

Thx in advance!
 

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Here's the trick. U need to use some notations

[tex] R^{2}+r^{2} =p^{2} [/tex]

[tex] 2rR\sin\vartheta =u [/tex]

One has that [itex] p^2 >0 \ ,\ u>0 [/itex].

Then the integral becomes

[tex] B_{r}(r,\vartheta) =C \int_{0}^{2\pi} \frac{d\phi}{\left(p^{2}-u \sin\phi\right)^{\frac{3}{2}}} = C [/tex]

times the result below. The notation for the complete elliptic integrals is the one Mathematica uses. U can check it out on the Wolfram site and compare it to the standard one (for example the one in Gradshteyn & Rytzik).

Daniel.
 
Last edited:

1. What are spherical coordinates?

Spherical coordinates are a type of coordinate system used to represent points in three-dimensional space. They consist of a radial distance, an azimuth angle, and a polar angle.

2. How are equations solved in spherical coordinates?

To solve equations in spherical coordinates, we use a combination of trigonometric functions and elliptic integrals. These integrals are used to calculate the surface area and volume of objects in spherical coordinates.

3. What are elliptic integrals?

Elliptic integrals are a type of special function used to solve problems involving ellipses and elliptic curves. They are commonly used in physics and engineering to calculate the area under a curve or the arc length of an ellipse.

4. Why are elliptic integrals useful in solving equations in spherical coordinates?

Elliptic integrals are useful in solving equations in spherical coordinates because they can handle the complex geometry of spheres and ellipsoids. They also allow us to calculate the surface area and volume of these objects more accurately than other methods.

5. Are there any limitations to using elliptic integrals in solving equations in spherical coordinates?

While elliptic integrals are powerful tools, they do have limitations. They can be difficult to evaluate and may not always have closed-form solutions. In some cases, numerical methods may be needed to approximate the solutions.

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