1 00:00:00,000 --> 00:00:07,280 "Hubble inside the Image / RS Puppis" 2 00:00:07,280 --> 00:00:12,280 This is an image of a star, a very special  star, which is called a Cepheid variable. 3 00:00:12,280 --> 00:00:15,760 And the particular star we're  looking at is called RS Pupis.   4 00:00:15,760 --> 00:00:18,720 It's in a southern hemisphere constellation. 5 00:00:18,720 --> 00:00:20,160 It's not a naked eye star, 6 00:00:20,160 --> 00:00:21,320 but it almost is. 7 00:00:21,320 --> 00:00:25,160 And so it's bright enough that you can  see it through even small telescopes. 8 00:00:25,160 --> 00:00:30,040 And it's been observed by amateur and professional  astronomers for a very long time. We have,   9 00:00:30,040 --> 00:00:34,040 you know, over a hundred years worth of  data on the variability of this star. 10 00:00:34,040 --> 00:00:37,960 The star gets five times brighter  at peak than from its trough. 11 00:00:37,960 --> 00:00:41,800 So RS Pup goes 40 or more days between peaks 12 00:00:41,800 --> 00:00:44,200 That happens on a 41 day time scale 13 00:00:44,200 --> 00:00:47,920 brightness from its dimmest to its  brightest is about five times brighter. 14 00:00:47,920 --> 00:00:50,160 So that's a huge change. 15 00:00:50,160 --> 00:00:56,040 It's about 6500 light years from Earth. And  that's a really important number for us to know. 16 00:00:56,040 --> 00:00:58,080 The distance, the precise distance 17 00:00:58,080 --> 00:00:59,920 It turns out it's a really important 18 00:00:59,920 --> 00:01:03,080 benchmark in how we understand  the scale of the universe 19 00:01:03,080 --> 00:01:06,720 Cepheid variables have a very special relationship   20 00:01:06,720 --> 00:01:11,200 between the period of variability, how  fast it goes from one peak to the next, 21 00:01:11,200 --> 00:01:15,400 and their absolute brightness. So how  much energy is coming out of that star? 22 00:01:15,400 --> 00:01:17,760 And if we know something's relative brightness 23 00:01:17,760 --> 00:01:19,720 and we can measure its absolute brightness from   24 00:01:19,720 --> 00:01:23,080 something like the period luminosity  relationship of the Cepheid variable,   25 00:01:23,080 --> 00:01:28,200 then we can tell you what distance it must  be at to look as bright as it looks to us. 26 00:01:28,200 --> 00:01:30,000 So this is a Cepheid variable. 27 00:01:30,000 --> 00:01:32,640 They're very important in our  history of understanding our   28 00:01:32,640 --> 00:01:34,880 scale of the universe and how it evolves. 29 00:01:34,880 --> 00:01:36,720 And this particular Cepheid variable 30 00:01:36,720 --> 00:01:40,280 is in our galaxy. So it's nearby enough  that we can study it really well. 31 00:01:40,280 --> 00:01:42,760 this one is so special because it's near the tip 32 00:01:42,760 --> 00:01:48,120 of that period luminosity relation. So it really  allows us to calibrate the entire relation 33 00:01:48,120 --> 00:01:48,840 and 34 00:01:48,840 --> 00:01:54,280 the fact that it's embedded in this  beautiful cloud of dust. It looks amazing. 35 00:01:54,280 --> 00:01:58,280 a stunning Hubble image with  all the filamentary detail. 36 00:01:58,280 --> 00:02:01,960 But there's also science embedded in this light, 37 00:02:01,960 --> 00:02:06,240 and that science allows us to get an  extremely accurate distance to this   38 00:02:06,240 --> 00:02:10,240 Cepheid variable within about  10% accuracy or even better. 39 00:02:10,240 --> 00:02:13,920 But this is a star that's about ten  times more massive than the sun. 40 00:02:13,920 --> 00:02:15,120 More massive stars 41 00:02:15,120 --> 00:02:16,960 they live fast and they die young. 42 00:02:16,960 --> 00:02:20,280 and when that happens, the star  starts to go through these changes. 43 00:02:20,280 --> 00:02:22,520 And so that's what is actually driving the period   44 00:02:22,520 --> 00:02:26,720 luminosity relation is that the star  is actually unstable during this time 45 00:02:26,720 --> 00:02:28,160 and when it's got a lot of 46 00:02:28,160 --> 00:02:30,000 coming from the core, that core has to 47 00:02:30,000 --> 00:02:32,800 do something. When it expands,  the radius gets much bigger,   48 00:02:32,800 --> 00:02:37,360 the star gets brighter to a certain point where  it cools down and that starts to contract again. 49 00:02:37,360 --> 00:02:40,560 Now, it doesn't have as much energy.  It starts to fall back into gravity, 50 00:02:40,560 --> 00:02:43,080 where it gets close enough that  it heats up again. That's actually   51 00:02:43,080 --> 00:02:45,920 what's driving these period Luminosity relations. 52 00:02:45,920 --> 00:02:49,280 So even though the star is younger than our sun 53 00:02:49,280 --> 00:02:55,360 because it's ten times brighter,  it's actually more evolved 54 00:02:55,360 --> 00:02:58,200 when you first look at it, it  almost looks like the material   55 00:02:58,200 --> 00:03:02,880 itself is spewing away from the star.  But that's actually not what's happening. 56 00:03:02,880 --> 00:03:03,880 What's happening is that 57 00:03:03,880 --> 00:03:08,360 the light takes to get to the  further out dust and gas is longer. 58 00:03:08,360 --> 00:03:12,720 So basically looking at almost like  a snapshot through that gas and dust, 59 00:03:12,720 --> 00:03:14,120 reacting to the light. 60 00:03:14,120 --> 00:03:20,040 And that light echo allows us to make this  extremely precise distance measurement. 61 00:03:20,040 --> 00:03:22,560 Now, due to improvements in our 62 00:03:22,560 --> 00:03:24,880 measurements of Cepheid variables like RS PUP 63 00:03:24,880 --> 00:03:27,680 we have now really narrowed down that window. 64 00:03:27,680 --> 00:03:29,320 What is the age of the universe? 65 00:03:29,320 --> 00:03:32,800 We now know it's 13 plus billion years old 66 00:03:32,800 --> 00:03:36,360 and we've seen that it's  not just expanding linearly,   67 00:03:36,360 --> 00:03:39,320 but it's actually an accelerating universe. 68 00:03:39,320 --> 00:03:43,360 it's all intimately tied to our  understanding of Cepheid variables,   69 00:03:43,360 --> 00:03:50,940 and this one is the best studied. 70 00:03:50,940 --> 00:03:58,929 "Follow us on social media @NASAHubble"