What is the orientation of the optical telescope assembly with respect to the direction of motion of the Hubble Space Telescope? If it happens to be in the direction of motion, does the primary mirror face the direction of motion or is it facing backwards, similar to a rear view mirror?
What is the orientation of the optical telescope assembly with respect to the direction of motion of the Hubble Space Telescope?
It could be just about anything from parallel to perpendicular to antiparallel.
In principle Hubble can point in any direction it wants. Its orbital motion direction is not related at all to the pointing direction.
But the ground controllers are very careful not to let it point anywhere near the direction of the Sun because the results would likely be catastrophic.
Since it orbits the Earth every ~90 minutes the Earth tends to get in the way a lot, it takes up pretty much the whole "down" hemisphere. If you are luck and looking in a direction perpendicular to the orbit that wasn't near the Sun, you could look for weeks at a time I think. But if you wanted to look in a direction that was closer to the plane of the orbit you get roughly 40 minutes of observing time followed by 50 minutes of looking in a different direction for someone else's observation because your target is behind the Earth.
The telescope points towards the object that Hubble is imaging. That direction could be forwards, backwards, sideways or whatever.
When you talk about "direction" in space, you need to say what you are measuring it relative to. Hubble is moving in a curved orbit relative to Earth at 7km/s (much, much faster than a bullet from a rifle) but it is also moving at 30km/s around the sun. So at the same time it might be pointing "forward" relative to the Earth but "backward" relative to the sun.
Unlike a car or a plane, there is no need for objects in space to face "forwards". So most of the time, Hubble will point "sideways" relative to its motion around the Earth.
And since its motion is curved, it may start an observation looking forwards, but be sideways by the end. It has to very carefully track the object it is observing. If it doesn't, the image will become blurry streaks.
The main mirror faces the object that is being observed. It has the shape of a ring, with a hole in the centre. There is a secondary mirror that catches the reflected light and sends it back through the hole to the focal point, where the image is formed and detected. Hubble has a Cassegrain telescope design.