Deriving Vr and V(sub-theta) from Kepler's second law and

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
3 replies · 5K views
LordCalculus
Messages
12
Reaction score
0
Deriving Vr and V(sub-theta) from Kepler's second law and...

Homework Statement



Beginning with r=[a(1-e2)]/(1+e*cos [tex]\theta[/tex]) and Kepler's second law, derive general expressions for vr and v[tex]\theta[/tex] for a mass m1 in an elliptical orbit about a second mass m2. The final answers should be functions of P, e, a, and [tex]\theta[/tex] only.

P=orbital period
e=eccentricity
a=semimajor axis

That's supposed to be v(subtheta) and cosine of theta!

Homework Equations



A'(t)=L/(2*[tex]\mu[/tex])
 
on Phys.org


Not far at all. I don't even know where to begin. If you do, then please start me off. Thanks!
 


Well, here would be my first thought: you have some information about position, and you are asked to find velocity. What does that tell you?