we started right over here, looking at the distance to the nearest star. And just as a reminder, in this drawing right here, this depiction right here, this circle right here, this solar system circle, it’s not the size of the Sun. It’s not the size of the orbits of the Earth, or Pluto, or the Kuiper Belt. This is close to the size of the Oort Cloud.
And the actual orbit of Earth is about– well, the diameter of the orbit of Earth is about 1/50,000 of this. So you wouldn’t even see it on this. It would not even makeup a pixel on this screen right here, much less the actual size of the Sun or something much smaller.
And just remember that orbit of the Earth, that was at a huge distance. It takes eight minutes for light to get from the Sun to the Earth, this super long distance. If you shot a bulleted the Sun from Earth, it would take you that 17 years to actually get to the Sun. So one thing, this huge distance wouldn’t even show up on this picture.
Now, what we saw in the last video is that if you travel at unimaginably fast speeds, if you travel at 60,000kilometers per hour– and I picked thatched because that’s how fast Voyager 1actually is traveling. That’s I think the fastest object we have out therein space right here. And it’s actually kind of leaving the solar system as we speak.
But even if you were able to get that fast, it would still take 80,000years, 75,000 or 80,000 years, to travel the 4.2 lightyears to the Alpha Centauri cluster of stars. To the nearest star, it would take 80,000 years. And that scale of time is already an amount of time that I have trouble comprehending. As you can imagine, all of modern civilization has occurred, well, definitely the last 10,000 years. But most of recorded history is in the last 4,000 or 5,000 years.
So this is 80,000 years to travel to the nearest star. So it’s a huge distance. Another way to think about it is if the Sun were the size of a basketball and you put that basketball in London, if you wanted to do it in scale, the next closest star, which is actually a smaller basketball, right over here, Proxima Centauri, that smaller basketball you would have to put in Kiev, Ukraine in order to have a similar scale. So these are basketballs sitting in these cities. And you would have to travel about 1,200 miles to place the next basketball.
And these basketballs are representing these super huge things that we saw in the first video. The Sun, if you actually made the Earth relative to these basketballs, these would be little grains of sand. So there are any littles mall planets over here, they would have thobe grains of sand in Kiev, Ukraine versus the grain of sand in London. So this is a massive, massive distance, already, at least in my mind, unimaginable. And when it gets really wacky is when you start really looking at this. Even this is a super, super small distance relative to the galactic scale.
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So this whole depiction of kind of our neighborhood of stars, this thing over here is about, give or take– and we’re doing rough estimates right here– it’s about 30 light years. I’ll just do LY for short. So that’s about 30 light years, And once again, you can take pictures of our galaxy from our point of view. But you actually can’t take a picture of the whole galaxy from above it. So these are going to be artists’ depictions.
But if this is 30 light years, this drawing right here of kind of our local neighbor hood of the galaxy, this right here is roughly– and these are all approximations. Let me do this in a darker color. This is about 1,000 light years. And this is the1,000 light years of our Sun’s neighborhood, if you can even call it a neighborhood anymore.
Even this isn’t really a neighborhood if it takes you 80,000 years to get to your nearest neighbor. But this whole drawing over here– now, it would take for ever to get anywhere over here– it would be 1/30 of this. So it would be about that big, this whole drawing. And what’s really going to blow your mind is this would be roughly a little bit more than a pixel on this drawing right here, that spans a 1,000 light years.
But then when you start to really put it into perspective– so now, let’s zoom out a little bit–so this drawing right here, this 1,000 light years is now this 1,000 light years over here. So this is the local vicinity of the Sun. And once again, the word “local” is used in a very liberally at this point. So this right here is 1,000 light years. If you’re sitting here and you’re looking at an object that’s sitting– let me do this in a darker color– if we’re sitting here on Earth and we’re looking at an object out here that’s 500light years away, we’re looking at it as it was500 years ago because the light that is reaching oureyeballs right now, or our telescopesright now, left this guy over here500 years ago.
In fact, he’s not going to even be there anymore. He probably has moved round a little bit. So just even on this scale, we’re talking about these unimaginably huge distances. And then when we zoom out, this is kind of our local part of the galaxy right over here. This piece right here, this is called the Orion Spur. And people are still trying to work out exactly the details of the actual shape the Milky Way Galaxy, the galaxy that we’re in.
But we’re pretty sure– actually, we’re very sure– weave these spiral arms and we have these spurs off of them. But it’s actually very hard to come up with the actual shape, especially because you can’t see a lot of the galaxy, because it’s kind of on the other side, on the other side of the center.
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But really just to get a sense of something that at least– I mean it blows my mind if you really think about what it’s saying–these unbelievable distances show up as a little dot here. This whole drawing shows up as a dot here. Now when we zoom out, over here that dot would no longer even show up. It wouldn’t even register a pixel on this drawing right over here. And then this whole drawing, this whole thing right over here, this whole picture is this grid right over here. It is this right over here.
So hopefully, that gives you a sense of how small even our local neighborhood is relative to the galaxy as a whole. And the galaxy as a whole, just to give you a sense, has 200 to 400 billion stars. Or maybe I should say solar systems just to give you a sense that when we saw the solar system, it’s not just the Sun. There’s all this neat, dynamic stuff. And there are planets, and asteroids, and solar winds.
And so there’s 200to 400 billion stars and for the most part, 200and 400 billion solar systems. So it’s an unimaginably, I guess, complex or huge place. And just to make it clear, even when we zoom in to this picture right here, and I think it was obvious based on telling you about this, that these little whit pockets right here, this isn’t one star. This isn’t two stars.
These are thousands of stars here. So when you go over here, each little blotch of white that you see, that’s not a star,that’s not a thousand stars. We’re starting to talkin the millions of stars when you look at certain blotches here and there. I mean, maybe it might become star that’s closer to you or might be a millions tars that are far apart and that are just relatively close together.
And everything has to be used in kind of loose terms here. And we’ll talk more about other galaxies. But even this isn’t the upper bound of galaxies. People believe the Andromeda Galaxy has a trillion stars in it, a trillion solar systems. We’re talking about these huge, huge, immense distances. And so just to give you a sense of where we fit in the picture, this is a rough location of our Sun.
And remember, that little dot I drew just now is including millions of stars, millions of solar systems, already unimaginable the distances. But if you really want to get at the sense relative to the whole galaxy, this is an artist’s depiction. Once again, we could never obviously get this perspective on the galaxy. It would take us forever to travel this far so that you could seethe galaxy from above.
But this is our best guess looking at things from our vantage point. And we actually can’t even see this whole area over here because it’s on the other side of the center of the galaxy, which is super, super dense and super bright. And so it’s very hard to seething’s on the other side. We think– or actually there’s super massive black hole at the center of the galaxy. And we think that they’re at the center of all or most galaxies.
But you know the whole point of this video, actually this whole series of videos, this is just kind of– I don’t know– to put you in awe a little bit of just how huge this is. Because when you really think about the scale– I don’t know– no words can really describe it. But just to giveyou a sense, we’re about 25,000 light years fromthe center of the galaxy. So even when we look at thingsin the center of the galaxy, that’s as they were25,000 years ago. It took 25,000 years forthat light to get to us.