Mathematical Proof of Kepler's First Law of Orbits

AI Thread Summary
The discussion revolves around proving the equation for elliptical orbits as it relates to Kepler's First Law. The user seeks clarification on the equation p = a(1-e²), where p is the semi-latus rectum, a is the semi-major axis, and e is the eccentricity. Suggestions for resources include classical mechanics and astrophysics textbooks, such as "Analytical Mechanics" by Fowles and Cassiday and "Foundations of Astrophysics" by Ryden and Peterson. Online resources are also recommended, including Wikipedia articles on Kepler's laws and the equation of the ellipse. The user expresses difficulty finding suitable online derivations but plans to explore the suggested books.
Memocyl
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Hello friends (I hope :biggrin:),

For a maths project I am working on, I need to be able to prove the equation for an elliptical orbit, related to Kepler's first law:

b115356a043a8d816886221bdd807dfb.png
and p = a(1-e2) (or should be as p can be replaced by that value)

Where:
r = distance from sun to any point on the orbit
p = semi latus rectrum
a = semi-major axis
e = eccentricity
θ = true anomaly (angle between a and r anticlockwise I think)

Can someone please help me to understand where these equations come from and also confirm that I have got my current facts straight?

Regards,
Memocyl
 
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Have you looked in classical mechanics and/or astrophysics books?
 
George Jones said:
Have you looked in classical mechanics and/or astrophysics books?
I haven't been able to come by any at the moment that help me derive the equation itself, which is what I don't understand. However, if you could name me any books that do that would be exceptionally helpful :smile:

Thank you
Memocyl
 
Examples at the level of about second-year university include "Analytical Mechanics" by Fowles and Cassiday, and "Foundations of Astrophysics" by Ryden and Peterson. I haven't looked, but I suspect that derivations of Kepler's first law also can be found on-line. Just Google "Kepler's first law".
 
George Jones said:
Examples at the level of about second-year university include "Analytical Mechanics" by Fowles and Cassiday, and "Foundations of Astrophysics" by Ryden and Peterson. I haven't looked, but I suspect that derivations of Kepler's first law also can be found on-line. Just Google "Kepler's first law".
I have tried online but to no avail unfortunately, apart from it bringing me here actually :biggrin:. Thank you very much though, I shall look for those books as soon as possible.

Regards
Memocyl
 
Memocyl said:
Hello friends (I hope :biggrin:),

For a maths project I am working on, I need to be able to prove the equation for an elliptical orbit, related to Kepler's first law:

b115356a043a8d816886221bdd807dfb.png
and p = a(1-e2) (or should be as p can be replaced by that value)

Where:
r = distance from sun to any point on the orbit
p = semi latus rectrum
a = semi-major axis
e = eccentricity
θ = true anomaly (angle between a and r anticlockwise I think)

Can someone please help me to understand where these equations come from and also confirm that I have got my current facts straight?

Regards,
Memocyl
There's plenty of material online which derives Kepler's laws from different perspectives.

Look at:
https://en.wikipedia.org/wiki/Kepler's_laws_of_planetary_motion (check out the bibliography at the end of the article)

https://en.wikipedia.org/wiki/Ellipse (for details of the equation of the ellipse in polar form)

http://www.grputland.com/2013/12/self-contained-derivation-of-keplers-laws-from-Newtons-laws.html
 

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