Hi!

I was wondering why planets at Perihelion travel faster than planets at Aphelion?

Is it incorrect to use the equation for orbital velocity (i.e. tangential velocity of an orbit in CIRCULAR motion) to explain why?

Mathematically:

V(orbital) = √(GM/R)

I know it sounds silly asI'm trying to explain speeds for objects in elliptical orbits, however it is the only justification that springs to mind.

Please help!

Thanks

## Elliptical Orbits

### Re: Elliptical Orbits

Gday Louisa,

So, let's use what we know. There are virtually no nonconservative forces in planetary orbits, so mechanical energy is conserved, so

U + K = constant

so

-GMm/r + 1/2 mv^2 = constant

so small r (perihelion) gives more negative U gives higher K and thus higher v than large r. Which is also intuitive, of course: you fall downhill, you go faster.

See

http://www.animations.physics.unsw.edu. ... avity.html

for animations and more detail.

Joe

Your caution is well advised. That equation is, as you said, for circular orbits and not true for elliptical ones.I know it sounds silly asI'm trying to explain speeds for objects in elliptical orbits,

So, let's use what we know. There are virtually no nonconservative forces in planetary orbits, so mechanical energy is conserved, so

U + K = constant

so

-GMm/r + 1/2 mv^2 = constant

so small r (perihelion) gives more negative U gives higher K and thus higher v than large r. Which is also intuitive, of course: you fall downhill, you go faster.

See

http://www.animations.physics.unsw.edu. ... avity.html

for animations and more detail.

Joe