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by cmpb 1615 days ago
I was confused at first because the article mentions that "a spacecraft bound for the center of the solar system would need to slow itself down" and "engineers must take Parker past Venus seven times throughout the mission, so that the spacecraft can use that planet’s gravity as a brake", but you mention that PSP is traveling very fast (and indeed I've always understood that items orbiting closer to the center travel faster). Is this just a dumbing-down in the article's verbiage, or is it common to think of shrinking the perihelion as "braking"?
2 comments
areoform 1615 days ago
Think about it as a vector. Imagine if you were a god, and you placed a particle in the same orbit as Earth. Now imagine you wanted to smash it into the sun. How would you do it?

For the particle to fall straight "down" to the sun, in a straight line, you would have to cancel all of its orbital velocity.

That's why it's difficult to get close to the sun and it requires a lot of energy. You have to subtract out a large part of Earth's orbital velocity.

But that's just one part of the explanation. It's not intuitive per se (I imagine it as a play between kinetic and potential energies), but the closer you are to a body, the faster your orbit. The farther out the "slower" your orbit.

It's the opposite of a disc.

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denton-scratch 1615 days ago
Ah, thanks.

If I get you right, the braking slows the orbiting object down. But that slow-down causes it to move to a lower orbit, losing potential energy in exchange for increased orbital velocity. And the velocity you drop in high orbit, you gain with interest as you move to low orbit.

So braking makes you go faster.

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samhuk 1615 days ago
Passing by Venus is lowering the spacecraft's periapsis, increasing the orbit's eccentricity. The lower the satellite goes, the faster it will be at periapsis. Those speeds the GP comment is refering to are, in all likelihood, velocity as periapses.
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areoform 1615 days ago
Yes, indeed! It's the magnitude of its velocity around the sun at closest approach.
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cmpb 1615 days ago
There we go, thank you, that's the mental model I needed to bring it together
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