[![enter image description here][1]][1]

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<p>I have a **hypothetical** question that hopefully makes sense considering only the rudimentary amount of knowledge I have on *Relativity*.
<p>Assume I am in a spaceship orbiting around a spherical satellite, at a certain **fixed radius**. The satellite emits electromagnetic signals (*read wifi compatible*) which are spherically symmetric. If my spaceship had a mobile wifi hotspot (*that can access the signals*), and if I were to download information , would the download speed be faster or slower compared to when I am stationary with respect to the satellite?
<p>Also consider that there is negligible attenuation.
<p>**Edit**: What I initially thought was that time dilation would make "my" clock in the spaceship tick slower ,hence the wifi signal from the "satellite" would be received faster. I thought I should add this to clarify my train of thought that led to the question.Also added above is a very crude image of what I intended to ask. Please do note that it is a hypothetical question regarding relativity.

  [1]: https://i.sstatic.net/GEcas.jpg