Comment by oh_sigh

8 years ago

No, because you can't catch up with radio waves since they are going the speed of light.

But using OP's idea, they could be reflected back at the earth, such that 2018 - 1942 = 2 x numLightYears away from the scattering object. I agree, you wouldn't be able to go "in front of the waves" but you might be able to go to a point in space where they'd eventually arrive through scattering. I think it's very unlikely anyways since the solid angle for them to be reflected right back at a certain point is super small.

  • Very unlikely indeed. I wish I was smart enough to do the math but I'm sure it's more difficult than resolving a planet 50k light years away. Probably more like resolving a planet in another galaxy.

    • I fixed the typo, the factor of a half should have been on the other side of the equation. To actually calculate a realistic probability would require more work; farther objects would imply higher attenuation, etc.