WEBVTT FILE 1 00:00:00.000 --> 00:00:04.797 MISSING DARK MATTER HUBBLE MYSTERY 2 00:00:04.797 --> 00:00:15.399 Dark matter is the invisible glue that holds the universe together. 3 00:00:15.399 --> 00:00:18.958 "Galaxy Motion Simulation. Observed with Dark Matter (On left) and Predicted without Dark Matter (On Right.)" 4 00:00:18.958 --> 00:00:29.399 Most galaxies are rotating so fast that gravity generated by stars and gas alone can’t keep them together. 5 00:00:29.399 --> 00:00:42.044 They should have flown apart long ago. Something we can’t see must glue them together: dark matter. 6 00:00:42.044 --> 00:00:51.517 Unlike observable matter, dark matter does not emit, absorb, or reflect light, making it hard to detect. 7 00:00:51.517 --> 00:01:05.184 Instead, astronomers look for the gravity signature of dark matter by observing its effects on galaxies. 8 00:01:05.184 --> 00:01:17.668 In 2018, galaxy NGC 1052-DF2 made headlines because it seemed to be missing dark matter. 9 00:01:17.668 --> 00:01:26.496 The observed number of stars in NGC 1052-DF2 accounted for most of the gravity. 10 00:01:26.496 --> 00:01:35.544 This unique galaxy contains a tiny fraction of the dark matter astronomers expected. 11 00:01:35.544 --> 00:01:47.490 A galaxy lacking dark matter is an extraordinary claim. It upsets theories of galaxy formation and evolution. 12 00:01:47.490 --> 00:01:54.060 Because this result was so unusual, some astronomers questioned it. 13 00:01:54.060 --> 00:02:10.308 They looked for other explanations. Could the galaxy be closer, and have fewer stars than its brightness suggested? 14 00:02:10.308 --> 00:02:25.373 It would also imply the galaxy had more dark matter, to balance the insufficient gravity due to fewer stars. 15 00:02:25.373 --> 00:02:38.992 In theory, if two galaxies are the same distance away, their brightness would differ from each other. 16 00:02:38.992 --> 00:02:45.239 But if the galaxy with fewer stars is brought closer… 17 00:02:45.239 --> 00:02:56.277 ...both galaxies would appear to be the same brightness. 18 00:02:56.297 --> 00:03:07.061 Hubble collected more data to better measure the galaxy’s distance. 19 00:03:07.061 --> 00:03:20.000 The team targeted aging red stars whose peak brightness is used to determine distance. 20 00:03:20.000 --> 00:03:30.392 But the new Hubble measurements still found it was a distant galaxy as originally suspected. 21 00:03:30.392 --> 00:03:43.144 The mystery of why NGC 1052-DF2 is missing most of its dark matter still persists. 22 00:03:43.144 --> 00:03:47.727 [SILENCE]