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I am working on a visualization for some data and I've run into a snag. I need to draw some ellipses based on data that looks like this:

{
    x: 455.53 //the center x coordinate
    y: 122.44 //the center y coordinate
    e1: .24101 //value from -1 to 1, represents stretching along x when positive, along y when negative
    e2: -.44211 //value from -1 to 1, represents stretching along the 45 degree line when positive and 135 when negative 
}

Long story short, I have no idea how to do this... it is just for a one time visualization so efficiency isn't a concern. If someone can suggest how to manipulate the e1/e2 to get the foci or major/minor axis and angle of rotation, that'd be super fancy. Thanks!

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This question may get better responses at math.stackexchange.com. –  carlosfigueira Oct 30 '12 at 23:41
    
Thanks, I'll try there as well! –  FlyingStreudel Oct 30 '12 at 23:49
    
@FlyingStreudel Sorry, but what does e1 and e2 stand for? –  Picrofo Software Oct 30 '12 at 23:54
    
Given the centre you need three parameters to describe an ellipse (eg semi-major axis, semi-minor axis and rotation) but you appear to have only two pieces of data. So I'd guess there is a lot of ellipses that fit your parameters. But what exactly do you mean by "stretch"? –  dmuir Oct 31 '12 at 11:41
1  
Take a circle, scale it according to e2, rotate it by 45°, then scale it according to e1. Is this what you want? Or do you first scale by e1, then rotate, then scale by e2, then rotate back? Or is there some form of simultaneous stretching? Do you have any way to verify whether a given interpretation matches the desired one? If so, can you post details on that? –  MvG Nov 2 '12 at 18:57

1 Answer 1

up vote 1 down vote accepted

This form of specifying ellipticity is common in gravitational lensing. These ellipticity numbers are the real and imaginary parts of a complex ellipicity value; see the section Weak Lensing Observables and the expression for ε there.

I can't do proper math notation here because of a policy decision; see this meta question. http://meta.stackexchange.com/questions/4152/adding-support-for-math-notation. Accordingly, I'll simply point out that the magnitude of the vector is a transform of the major-minor axis ratio, and that the angle is half of the inverse tangent of the ratio of the two components.

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