It gets very complicated very quickly, well beyond what you can easily describe in an ELI5 post.

Yes, time ticks differently on different planets or in space relative to those on Earth. Technically it ticks differently for everyone here on Earth too, it’s just so immeasurably small that it can be ignored for any practical sense. Gravity and motion through space both influence how time passes for you relative to how it passes for somebody else. You can think of it a bit like a teeter totter with the three dimensions of space (up / down, front / back, side / side) on one side and the one dimension of time (past to future) on the other. The faster you move through the three dimensions of space the slower you move through the dimension of time, and vice versa, relative to something else. Gravity is wildly more complicated but it’s essentially the effect of curving your motion out of the dimension of time (time slows down) and into the dimensions of space (what you experience as falling “down”).

To answer your question about aging your body ages just as it normally would because for you 1 second always ticks at a rate of 1 second. It’s only when you compare your clock to someone else’s that you would notice that your 1 second isn’t the same as their 1 second. Remember that all of this is relative.

The 1 hour on Planet X to 7 years on Earth is a real thing that could really happen but would require extreme conditions that you almost certainly wouldn’t be able to survive in, like orbiting near the Event Horizon of a black hole.

It gets very complicated very quickly, well beyond what you can easily describe in an ELI5 post.

Yes, time ticks differently on different planets or in space relative to those on Earth. Technically it ticks differently for everyone here on Earth too, it’s just so immeasurably small that it can be ignored for any practical sense. Gravity and motion through space both influence how time passes for you relative to how it passes for somebody else. You can think of it a bit like a teeter totter with the three dimensions of space (up / down, front / back, side / side) on one side and the one dimension of time (past to future) on the other. The faster you move through the three dimensions of space the slower you move through the dimension of time, and vice versa, relative to something else. Gravity is wildly more complicated but it’s essentially the effect of curving your motion out of the dimension of time (time slows down) and into the dimensions of space (what you experience as falling “down”).

To answer your question about aging your body ages just as it normally would because for you 1 second always ticks at a rate of 1 second. It’s only when you compare your clock to someone else’s that you would notice that your 1 second isn’t the same as their 1 second. Remember that all of this is relative.

The 1 hour on Planet X to 7 years on Earth is a real thing that could really happen but would require extreme conditions that you almost certainly wouldn’t be able to survive in, like orbiting near the Event Horizon of a black hole.

A few people mentioned the movie Interstellar. One extra point to mention. It’s not just speed that affects time, but gravity as well.

It doesn’t affect us much because the gravity of Earth is really tiny compared with a black hole by time does pass something like 0.00000001% slower on Earth than deep deep space .

If you were near a black hole, time would pass extremely slowly. This is what happens in the movie.

A few people mentioned the movie Interstellar. One extra point to mention. It’s not just speed that affects time, but gravity as well.

It doesn’t affect us much because the gravity of Earth is really tiny compared with a black hole by time does pass something like 0.00000001% slower on Earth than deep deep space .

If you were near a black hole, time would pass extremely slowly. This is what happens in the movie.

In the context of our own solar system, the “days” and “years” are just a matter of how long it takes for a planet to spin on its own axis or rotate around the sun. If you could somehow comfortably live on another planet, you’d still live about the same time as you would on Earth, it’s just that the cycles of sunlight/darkness and seasons would be radically out of whack to what you’re used to here.

For example, Mercury’s path around the sun is so quick and its spin is so slow that its “day” is messed up by its “year”. It takes 59 whole Earth days for Mercury to spin on its own axis (one Mercury “day”), but it takes just 88 Earth days for it to rotate around the sun (one Mercury “year”). So, it takes a whopping 176 days for you to see two whole sunrises on Mercury.

In the context of our own solar system, the “days” and “years” are just a matter of how long it takes for a planet to spin on its own axis or rotate around the sun. If you could somehow comfortably live on another planet, you’d still live about the same time as you would on Earth, it’s just that the cycles of sunlight/darkness and seasons would be radically out of whack to what you’re used to here.

For example, Mercury’s path around the sun is so quick and its spin is so slow that its “day” is messed up by its “year”. It takes 59 whole Earth days for Mercury to spin on its own axis (one Mercury “day”), but it takes just 88 Earth days for it to rotate around the sun (one Mercury “year”). So, it takes a whopping 176 days for you to see two whole sunrises on Mercury.