1 00:00:00,000 --> 00:00:06,337 "Hubble Science" 2 00:00:06,337 --> 00:00:14,560 "Dark Energy: A Mysterious Force" 3 00:00:14,560 --> 00:00:20,640 Because the Hubble Space Telescope is operating so  well and is so scientifically effective right now,   4 00:00:20,640 --> 00:00:28,640 scientists are using Hubble to investigate  some of the deepest mysteries of the universe.   5 00:00:28,640 --> 00:00:32,400 One mystery is dark energy,  that's the name just kind of   6 00:00:32,400 --> 00:00:36,640 plastered on this phenomenon that  Hubble and other telescopes together,   7 00:00:36,640 --> 00:00:42,080 we found that the universe expansion has been  accelerating for the last few billion years.   8 00:00:42,080 --> 00:00:49,520 Well, what is causing that? We don't know, it's  something about a repulsive force that we may not   9 00:00:49,520 --> 00:00:55,600 fully understand, or new physics that we don't  fully understand. But Hubble was used along,   10 00:00:55,600 --> 00:01:01,360 in complement, with some telescopes on the ground  to determine that the expansion of the universe   11 00:01:01,360 --> 00:01:07,040 is in fact accelerating by something we're now  calling dark energy, and without Hubble, we   12 00:01:07,040 --> 00:01:17,084 would have not been able to make this detection,  which is now a Nobel Prize winning discovery. 13 00:01:17,084 --> 00:01:21,360 This explains why the universe appears to be  accelerating now, when it used to be slowing   14 00:01:21,360 --> 00:01:27,120 down because of gravity. So now the question is,  well, is this a simple story or is it complicated?   15 00:01:27,120 --> 00:01:34,960 Is there more than one kind of dark energy?  Has the dark energy itself changed over time? 16 00:01:34,960 --> 00:01:41,520 So Hubble is now being used to refine, even  further, that expansion rate of the universe   17 00:01:41,520 --> 00:01:46,320 in our current epoch, and trying to  compare that to what might be predicted   18 00:01:46,320 --> 00:01:50,080 from looking at other measurements of  the universe with other telescopes.   19 00:01:50,080 --> 00:01:53,440 Right now, we're finding a discrepancy  between what we might have expected and   20 00:01:53,440 --> 00:01:57,920 what we're actually measuring. So that's  one realm where Hubble is really at the   21 00:01:57,920 --> 00:02:05,584 cutting edge of helping us understand, or at  least open up new mysteries of the universe. 22 00:02:05,584 --> 00:02:15,677 [ MUSIC ]