Seeing Stars: Crash Course Kids #20.1 *corrected* - By Crash Course Kids
Transcript
| 00:09 | what makes a star is it the right hairdo ? | |
| 00:12 | A funny twitter account , cool clothes , famous friends | |
| 00:15 | . Well if you're into science like I am then | |
| 00:17 | the stars you should care about aren't the ones in | |
| 00:18 | movies or on tv . They're the ones in space | |
| 00:22 | but with so many shiny objects floating around up there | |
| 00:24 | it can be hard to tell what's a star and | |
| 00:26 | what's not . So let me introduce you to some | |
| 00:29 | real stars . A star is a bright object in | |
| 00:36 | space that gives off light through energy that it makes | |
| 00:39 | in its core . No mm something really bright that | |
| 00:43 | gives off a lot of light and it creates energy | |
| 00:46 | in its core . That sounds familiar and if it | |
| 00:48 | doesn't it should I'm thinking of the sun . We | |
| 00:52 | already learned that the sun is a star like the | |
| 00:54 | sun . All stars are giant balls of gas located | |
| 00:57 | millions of kilometers away from us . Obviously the sun | |
| 01:00 | isn't the only star in our universe , it's just | |
| 01:02 | the most famous one . At least to us , | |
| 01:04 | astronomers think that there are billions of stars out there | |
| 01:07 | . But does that mean all the sparkly things you | |
| 01:09 | see when you look up at the night sky are | |
| 01:11 | stars , nope . There are all kinds of things | |
| 01:14 | in space that glow or appear to glow just like | |
| 01:17 | stars do , but they're not actually stars . Let's | |
| 01:21 | check out three kinds of things in space that can | |
| 01:23 | sometimes get mistaken for a star . First up planets | |
| 01:27 | , planets are big round objects in space that travel | |
| 01:29 | around the star , you know , or really should | |
| 01:32 | know that you live on a planet . Earth . | |
| 01:35 | There are seven other planets in our solar system . | |
| 01:37 | Mercury , venus , mars , jupiter , Saturn , | |
| 01:40 | uranus and Neptune . All of these planets travel around | |
| 01:44 | the same star , the sun . These eight planets | |
| 01:46 | aren't the only planets in our solar system though . | |
| 01:49 | There are several other planets up there too . But | |
| 01:51 | because of their smaller size , scientists call them dwarf | |
| 01:54 | planets , dwarf planets are a lot like regular planets | |
| 01:57 | , their roundish and also traveling a path around the | |
| 01:59 | sun . But unlike regular planets , dwarf planets are | |
| 02:03 | smaller and they might be in for a bumpy ride | |
| 02:05 | . While regular planets have a clear path around the | |
| 02:07 | sun , dwarf planets , paths are full of other | |
| 02:10 | stuff like asteroids , more on those in just a | |
| 02:12 | minute . So how can you tell planets and dwarf | |
| 02:14 | planets apart from stars ? I mean it's pretty easy | |
| 02:17 | to mix them all up from a big distance , | |
| 02:18 | but if you zoom in really close planets and stars | |
| 02:21 | are pretty different , most planets appear brighter to us | |
| 02:24 | than stars do . This is because the planets we | |
| 02:26 | see are closer to Earth and the stars are . | |
| 02:28 | Another big difference is whether they appear to move in | |
| 02:31 | relation to the other things in the sky around them | |
| 02:33 | . Like I said , the planet's orbit or follow | |
| 02:35 | a path around the sun . So imagine that you | |
| 02:37 | observe the certain planet by taking photos of it in | |
| 02:40 | the sky every night for many months . And then | |
| 02:42 | you compared all of those photos , you'd be able | |
| 02:44 | to track the planet's movement and see that its position | |
| 02:47 | in the sky changed in relation to the stuff around | |
| 02:50 | it . Stars change their position in our night sky | |
| 02:52 | too , but they're located much further away , so | |
| 02:54 | it's harder to track their movement . Plus when stars | |
| 02:57 | move because they're all so far away , they appear | |
| 03:00 | to all move together . So if you're tracking one | |
| 03:03 | star as it changes its position in the night sky | |
| 03:05 | , the stars around it move with it . Another | |
| 03:08 | thing to look out for colour . If an object | |
| 03:10 | in space has an intense color , it's most likely | |
| 03:13 | a planet , not a star . So besides planets | |
| 03:16 | and dwarf planets , what's the third object in space | |
| 03:18 | ? That could be mistaken for a star ? Asteroids | |
| 03:21 | ? Asteroids are chunks of rock and metal that also | |
| 03:24 | orbit around the sun . Most asteroids are found in | |
| 03:26 | the asteroid belt , an area between mars and jupiter | |
| 03:29 | . So what does an asteroid look like to a | |
| 03:31 | passing spacecraft , it just looks like a giant rock | |
| 03:34 | . But from a spot very far away , like | |
| 03:37 | earth , asteroids can look like tiny spots of light | |
| 03:40 | . So how do you tell the difference between an | |
| 03:42 | asteroid and the star ? Sort of how you tell | |
| 03:44 | the difference between a planet and a star like planets | |
| 03:47 | . Asteroids are closer to Earth and stars and are | |
| 03:49 | easier to track across the night sky over time . | |
| 03:51 | Also , stars tend to twinkle when viewed from earth | |
| 03:54 | or blink on and off , going from bright to | |
| 03:56 | faint planets and asteroids generally don't twinkle . Now let's | |
| 04:00 | take some of what we've just learned and see if | |
| 04:02 | we can spot the real stars among the impostors . | |
| 04:05 | Mhm . It's time to play star or not . | |
| 04:11 | A star . Here's how it works . We look | |
| 04:13 | at an image of something in space and I'll give | |
| 04:15 | you some clues . Then you'll guess whether the object | |
| 04:18 | is a star or not . Here we go , | |
| 04:20 | introducing object number one star or not , a star | |
| 04:24 | . Let's take a look at the evidence . Your | |
| 04:26 | first clue is brightness . Most stars aren't as bright | |
| 04:29 | as this object , meaning it's probably pretty close to | |
| 04:32 | Earth . Now let's watch the object for a couple | |
| 04:35 | of months . Just kidding . I'll just tell you | |
| 04:38 | that after watching this object for a very long time | |
| 04:41 | , you'd be able to tell it's moving through different | |
| 04:43 | parts of the sky , night after night , while | |
| 04:46 | most of the stuff around it doesn't seem to be | |
| 04:48 | moving at the same rate . So star or not | |
| 04:51 | a star , if you say that this is not | |
| 04:53 | a star than congrats , you're a genius or you | |
| 04:57 | know , you've been paying attention . The object is | |
| 04:59 | one of our planet neighbors venus . Since it's a | |
| 05:02 | planet , it's much closer to Earth than the stars | |
| 05:04 | and therefore appears to be brighter and since it's a | |
| 05:07 | planet , it's moving around a star in this case | |
| 05:10 | the sun , okay , object number two star or | |
| 05:13 | not a star . This object isn't as bright is | |
| 05:16 | it ? If you were to watch it for a | |
| 05:17 | very long time , it might appear to move , | |
| 05:19 | but it would still be surrounded by the same stuff | |
| 05:22 | you saw around it . When you first started observing | |
| 05:24 | it , it would also twinkle or look like it | |
| 05:26 | was blinking every so often . So . Star or | |
| 05:30 | not . A star star , yep , this pretty | |
| 05:32 | thing is a star called in if one of the | |
| 05:35 | brighter stars in the night sky and part of the | |
| 05:37 | constellation or group of stars called Pegasus , there's really | |
| 05:40 | no easy way to tell from Earth if a shiny | |
| 05:42 | object is a star or something else . But if | |
| 05:45 | you're willing to get out your telescope and be super | |
| 05:47 | patient , you can make an educated guess by looking | |
| 05:50 | at the objects brightness if it twinkles or not and | |
| 05:53 | if it appears to move in relation to stuff around | |
| 05:55 | it in the night sky , so to sum up | |
| 06:02 | a star is a bright object in space . But | |
| 06:05 | now you know that just because something in the night | |
| 06:07 | sky is shiny , that doesn't automatically mean it's a | |
| 06:09 | star . Real stars make their own light , unlike | |
| 06:13 | planets and asteroids , which just reflect light from other | |
| 06:16 | objects . So the real stars in the sky are | |
| 06:18 | the stars I care most about . They're all superstars | |
| 06:21 | . If you ask me |
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