WEBVTT FILE 00:00:14.434.00:00:15.667 -Welcome to NASA headquarters. 00:00:15.667.00:00:17.667 I'm Don Savage, public affairs officer 00:00:17.667.00:00:19.767 for the Office of Space Science. 00:00:19.767.00:00:21.434 During a 7-day period this July, 00:00:21.434.00:00:23.400 the periodic comet Shoemaker-Levy 9 00:00:23.400.00:00:25.701 will collide with Jupiter. 00:00:25.701.00:00:28.601 Coincidentally, that same week, 00:00:28.601.00:00:30.868 the country will be celebrating the 25th anniversary 00:00:30.868.00:00:33.367 of the Apollo 11 mission to the Moon, 00:00:33.367.00:00:34.634 but today's briefing is about 00:00:34.634.00:00:36.501 the comet's collision with Jupiter, 00:00:36.501.00:00:38.934 and it's a subject of intense interest around the world 00:00:38.934.00:00:41.667 and a National Science Foundation 00:00:41.667.00:00:44.100 observing effort, and our briefing today, 00:00:44.100.00:00:48.400 we will have recent images released 00:00:48.400.00:00:50.701 by the Hubble Space Telescope of the comet, 00:00:50.701.00:00:52.767 followed by a panel discussion, 00:00:52.767.00:00:54.434 and then we'll take questions and answers 00:00:54.434.00:00:56.501 from the reporters here 00:00:56.501.00:00:58.167 and at the NASA centers. 00:00:58.167.00:01:00.801 Our moderator today is Dr. Eugene Shoemaker, 00:01:00.801.00:01:03.100 who is the co-discoverer of the comet. 00:01:03.100.00:01:04.133 Dr. Shoemaker. 00:01:04.133.00:01:05.501 -Thanks, Don. 00:01:05.501.00:01:09.133 This afternoon, joining me here on the podium or up front 00:01:09.133.00:01:11.801 is Heidi Hammel from the Massachusetts 00:01:11.801.00:01:13.234 Institute of Technology, 00:01:13.234.00:01:16.734 Melissa McGrath from the Space Telescope Science Institute, 00:01:16.734.00:01:19.634 and Lucy McFadden from the University of Maryland 00:01:19.634.00:01:22.534 and the University of California San Diego 00:01:22.534.00:01:24.033 and then Hal Weaver also at 00:01:24.033.00:01:25.801 the Space Telescope Science Institute, 00:01:25.801.00:01:28.434 who is going to show us some of the latest images 00:01:28.434.00:01:30.467 taken with the space telescope. 00:01:30.467.00:01:31.634 -Okay. Thanks, Gene. 00:01:31.634.00:01:33.267 Hello, everybody. 00:01:33.267.00:01:37.300 In July of 1992, a comet that had previously been captured 00:01:37.300.00:01:39.300 into an orbit around Jupiter 00:01:39.300.00:01:42.067 passed so close to this giant planet 00:01:42.067.00:01:44.434 that it was literally split apart 00:01:44.434.00:01:46.734 into approximately 20 fragments. 00:01:46.734.00:01:50.033 Each of these pieces became, in effect, its own comet, 00:01:50.033.00:01:54.334 producing one of the most spectacular scenes in the sky. 00:01:54.334.00:01:57.934 Here we see, in the first picture, 00:01:57.934.00:02:01.033 a Hubble Space Telescope image of this comet 00:02:01.033.00:02:05.601 officially named periodic comet Shoemaker-Levy 9. 00:02:05.601.00:02:08.167 Now this was taken in January of this year 00:02:08.167.00:02:09.701 shortly after the Hubble Space... 00:02:09.701.00:02:13.567 The successful Hubble Space Telescope servicing mission. 00:02:13.567.00:02:16.968 Now fortunately, most of the nuclei in this comet 00:02:16.968.00:02:19.300 have not broken up like this, 00:02:19.300.00:02:20.701 so we still have high hopes 00:02:20.701.00:02:23.033 that there will be observable consequences 00:02:23.033.00:02:25.834 when the remaining fragments enter Jupiter's atmosphere 00:02:25.834.00:02:27.534 this summer. 00:02:27.534.00:02:30.400 Hubble will be continuing to monitor the comet up 00:02:30.400.00:02:33.400 until the last hours before the impact, 00:02:33.400.00:02:36.534 and then it'll shift its focus onto Jupiter itself 00:02:36.534.00:02:38.834 and its magnetosphere, and at that point, 00:02:38.834.00:02:41.067 I think I'll turn it back over to Eugene. 00:02:41.067.00:02:42.434 -Okay. Thanks, Hal. 00:02:42.434.00:02:48.300 Let's go back now for a moment to a year ago last March 00:02:48.300.00:02:50.200 and just talk a little bit about the discovery, 00:02:50.200.00:02:52.767 and the next image, which we should see here, 00:02:52.767.00:02:54.601 this is the telescope, 00:02:54.601.00:02:58.367 the 18-inch Schmidt at Palomar Observatory 00:02:58.367.00:03:01.767 with which we were working when we found the comet, 00:03:01.767.00:03:04.767 and this is the gang of three, if you will, 00:03:04.767.00:03:07.400 that observes rather regularly on this telescope, 00:03:07.400.00:03:08.634 including David Levy, 00:03:08.634.00:03:11.400 who is there closest to the instrument, 00:03:11.400.00:03:14.434 Carolyn Shoemaker, in the foreground, and myself. 00:03:14.434.00:03:17.834 The next image shows actually a photograph, 00:03:17.834.00:03:20.901 a positive photograph of one of the circular pieces of film 00:03:20.901.00:03:22.968 that we mount in the telescope. 00:03:22.968.00:03:27.200 We actually take about 200 of these images on average 00:03:27.200.00:03:29.634 when we go to the telescope each month, 00:03:29.634.00:03:32.934 and the big bright blob on the left 00:03:32.934.00:03:35.267 is actually the bloom dot image of Jupiter. 00:03:35.267.00:03:37.334 If you look very closely, there's a little red arrow. 00:03:37.334.00:03:40.601 Right in that spot is where the image of the comet was located. 00:03:40.601.00:03:42.000 You can't see it here. 00:03:42.000.00:03:44.234 You have to look under a microscope to find this. 00:03:44.234.00:03:47.834 The next image shows what it actually looked like 00:03:47.834.00:03:49.734 right under that red arrow. 00:03:49.734.00:03:51.567 This is the image that Carolyn Shoemaker 00:03:51.567.00:03:55.834 found two nights later after we'd taken the films, 00:03:55.834.00:03:57.634 and she saw this bar-like feature. 00:03:57.634.00:04:01.100 If you look very carefully, you can see faint little wisps 00:04:01.100.00:04:03.133 extending off each end. 00:04:03.133.00:04:07.000 These are the so-called wings and also a composite tail 00:04:07.000.00:04:09.901 extending off to the upper right. 00:04:09.901.00:04:13.834 An image taken an hour and 45 minutes later shows 00:04:13.834.00:04:17.167 how the comet has shifted now with respect to the stars, 00:04:17.167.00:04:18.901 and it's that motion that enables us 00:04:18.901.00:04:21.567 to actually detect objects in the solar system 00:04:21.567.00:04:23.901 that are moving relative to the background, 00:04:23.901.00:04:27.133 and they actually stand out stereoscopically 00:04:27.133.00:04:29.100 in the microscope that Carolyn uses. 00:04:29.100.00:04:32.868 So right away, we knew there was a moving object there. 00:04:32.868.00:04:35.400 It sort of looked like a comet, 00:04:35.400.00:04:38.667 but it was the strangest comet we had ever seen. 00:04:38.667.00:04:42.300 Carolyn sat up and said, "This looks like a squashed comet." 00:04:50.100.00:04:52.167 -Yeah. 00:04:52.167.00:04:54.400 [ Indistinct conversations ] 00:05:09.067.00:05:11.300 [ Indistinct conversations ] 00:05:24.067.00:05:26.067 -This is the 73, so you've got to go 00:05:26.067.00:05:27.767 down to, like... 00:05:27.767.00:05:30.534 -Oh, I'm going to take the... 00:05:30.534.00:05:33.067 -Okay. 00:05:33.067.00:05:34.400 -All right. 00:05:34.400.00:05:36.234 -This is where we now have it pointed. 00:05:36.234.00:05:38.701 [ Indistinct conversations ] 00:05:42.701.00:05:44.467 -Yeah. 00:05:44.467.00:05:46.868 [ Indistinct conversations ] 00:05:52.501.00:05:55.267 -The real proof in the pudding here is to see 00:05:55.267.00:05:56.601 if these major lines here 00:05:56.601.00:05:59.567 go right through the corners, which they do. 00:05:59.567.00:06:01.467 -Oh, wow. 00:06:01.467.00:06:02.968 -There's no doubt on which one that is. 00:06:02.968.00:06:04.200 -Holy cow. Hey. 00:06:04.200.00:06:05.501 Look at that. Look at this. -We got two twins. 00:06:05.501.00:06:07.734 -Look at at this. 00:06:07.734.00:06:09.901 -One "Wow," you guys, let's say it. 00:06:09.901.00:06:12.000 -Ready? One, two, three. 00:06:12.000.00:06:13.934 -Wow. 00:06:13.934.00:06:17.100 -All right. Hang on just a second. 00:06:17.100.00:06:17.968 [ Indistinct conversations ] 00:06:17.968.00:06:19.300 -Where you going? 00:06:19.300.00:06:21.767 Are you going from the center of the screen? 00:06:21.767.00:06:23.234 -Right to the center -- 00:06:23.234.00:06:25.100 -The center, is that what you want? 00:06:25.100.00:06:26.300 -Well, we could go through the center, 00:06:26.300.00:06:28.200 and that's another decision we can... 00:06:28.200.00:06:30.834 [ Indistinct conversations ] 00:06:37.367.00:06:39.267 -I agree. 00:06:40.300.00:06:44.567 -It's coming like this, like this, 00:06:44.567.00:06:45.767 and it sure doesn't look like it. 00:06:45.767.00:06:48.400 Could it have been spread out this way 00:06:48.400.00:06:50.334 so it's a whole bunch of them 00:06:50.334.00:06:54.834 going in kind of like this, like... 00:06:54.834.00:06:56.167 -That would be a longer track. 00:06:56.167.00:06:57.934 That's a longer track. 00:06:57.934.00:07:00.133 [ Indistinct conversations ] 00:07:02.834.00:07:05.534 -Jennifer, look at this. 00:07:05.534.00:07:07.000 Lookit. -Oh, my god. 00:07:07.000.00:07:08.801 -Isn't that incredible? 00:07:08.801.00:07:11.534 It's right in the... -That's amazing. 00:07:11.534.00:07:12.701 -That's what we all said. 00:07:12.701.00:07:14.300 And in the initial coordinate, 00:07:14.300.00:07:16.667 you can see the plume on the... 00:07:16.667.00:07:18.767 and you can see it spread. 00:07:18.767.00:07:21.601 [ Indistinct conversations ] 00:07:29.367.00:07:31.634 [ Indistinct yelling ] 00:07:33.100.00:07:35.000 -Just bust in there. -All right. 00:07:43.634.00:07:44.934 -Come on, Heidi. Prep her shot. 00:07:44.934.00:07:46.467 She's going in. Prep her shot. 00:07:46.467.00:07:47.601 Come on. Come on, Heidi. 00:07:47.601.00:07:49.434 Prep her shot. Prep her shot. 00:07:49.434.00:07:50.634 Prep her shot. She's going in. 00:07:50.634.00:07:52.701 Camera 3. Come on. 00:07:52.701.00:07:54.133 She's bursting in. She's bursting in. 00:07:54.133.00:07:56.133 Go, Heidi. 00:07:56.133.00:07:58.234 [ Indistinct talking ] 00:07:58.234.00:08:01.534 -...when the smaller pieces reaggregate into a clump 00:08:01.534.00:08:04.834 that effectively hits the top of the atmosphere. 00:08:04.834.00:08:10.033 What I could say is, that we should see these things at all 00:08:10.033.00:08:12.400 probably indicates we're dealing with larger objects 00:08:12.400.00:08:16.501 than was concluded by... 00:08:16.501.00:08:17.667 And I think we may have some 00:08:17.667.00:08:19.467 up-to-date information. Heidi. 00:08:19.467.00:08:22.300 [ Laughter and applause ] 00:08:27.234.00:08:30.200 -We actually saw some amazing things. 00:08:30.200.00:08:31.334 -All right. 00:08:31.334.00:08:34.234 We just downloaded the first two orbits, 00:08:34.234.00:08:38.267 end of a really exciting week, so more details to come. 00:08:38.267.00:08:39.868 We just got this data down. 00:08:39.868.00:08:41.934 We haven't had a chance to do anything with it, 00:08:41.934.00:08:43.868 and I'll be talking with you at 10 o'clock 00:08:43.868.00:08:47.901 about what we have actually seen in the larger data set. 00:08:57.167.00:08:58.667 -Good evening. 00:08:58.667.00:09:00.901 Welcome to the Space Telescope Science Institute in Baltimore. 00:09:00.901.00:09:03.000 I'm Don Savage, public affairs officer 00:09:03.000.00:09:05.267 for NASA's Office of Space Science. 00:09:05.267.00:09:07.267 This evening, we're pleased to announce the start 00:09:07.267.00:09:10.067 of a weeklong campaign of observations 00:09:10.067.00:09:13.801 of the impact of periodic comet Shoemaker-Levy 9 with Jupiter. 00:09:13.801.00:09:16.334 The impact of the first fragment occurred earlier 00:09:16.334.00:09:18.601 this afternoon at about 3:54, 00:09:18.601.00:09:19.968 and scientists around the world 00:09:19.968.00:09:22.400 participating in the NASA National Science Foundation 00:09:22.400.00:09:24.601 observing campaign, as well as virtually 00:09:24.601.00:09:26.934 every other telescope and observatory 00:09:26.934.00:09:30.000 around the world have been watching. 00:09:30.000.00:09:32.901 That included, of course, the Hubble Space Telescope, 00:09:32.901.00:09:35.868 which is where we are located here at the Institute. 00:09:35.868.00:09:37.267 An image of the area of Jupiter 00:09:37.267.00:09:39.434 which the fragment hit will be ready 00:09:39.434.00:09:41.033 by about 10 o'clock tonight, 00:09:41.033.00:09:43.601 and at that time, Dr. Heidi Hammel will provide 00:09:43.601.00:09:45.801 the image and will discuss what she can tell 00:09:45.801.00:09:49.133 from the early analysis of the data. 00:09:49.133.00:09:51.801 Now I'd like to introduce our panel, 00:09:51.801.00:09:54.767 the discoverers and of course the namesake of the comet, 00:09:54.767.00:10:01.133 from my left, Dr. Eugene Shoemaker of Lowell Observatory. 00:10:01.133.00:10:04.334 He's a research professor at North Arizona University 00:10:04.334.00:10:06.834 in Flagstaff and Scientist Emeritus 00:10:06.834.00:10:10.300 at the US Geological Survey. 00:10:10.300.00:10:12.634 To his left, Dr. Carolyn Shoemaker, 00:10:12.634.00:10:15.534 his wife, also a staff member of Lowell Observatory 00:10:15.534.00:10:19.000 and research professor at North Arizona University 00:10:19.000.00:10:23.234 and a volunteer scientist at the US Geological Survey, 00:10:23.234.00:10:27.400 and on the far left, David Levy, amateur astronomer and author, 00:10:27.400.00:10:29.634 and he's discovered 21 comets, 00:10:29.634.00:10:32.400 and in 1984, eight in his own backyard 00:10:32.400.00:10:35.601 and 13 with working with Gene and Carolyn Shoemaker 00:10:35.601.00:10:38.133 in Mt. Palomar. 00:10:38.133.00:10:40.033 -One thing I would say is that 00:10:40.033.00:10:42.701 if we should see these things at all, 00:10:42.701.00:10:45.601 that it probably indicates we're dealing with larger objects 00:10:45.601.00:10:49.701 than was concluded by SFOG and... 00:10:49.701.00:10:52.100 and I think we may have some up-to-date information 00:10:52.100.00:10:53.767 from Heidi Hammel. 00:10:53.767.00:10:55.968 [ Laughter ] 00:10:55.968.00:10:57.200 [ Applause ] 00:10:57.200.00:10:58.767 -Yes. 00:11:01.000.00:11:04.000 -I'd like to introduce Dr. Heidi Hammel. 00:11:04.000.00:11:07.100 -Eugene Shoemaker said he would be personally astonished 00:11:07.100.00:11:09.334 if we saw nothing. 00:11:09.334.00:11:12.234 Well, if we didn't see something. 00:11:12.234.00:11:14.667 Well, he's not going to be astonished. 00:11:14.667.00:11:16.901 We actually saw some amazing things. 00:11:16.901.00:11:19.200 -Oh, boy. 00:11:19.200.00:11:21.767 -We just downloaded the first two orbits. 00:11:21.767.00:11:25.334 In the first orbit, we were able to see a plume 00:11:25.334.00:11:27.601 on the edge of the planet. 00:11:27.601.00:11:31.701 The second orbit, which I have a raw laser printer output -- 00:11:31.701.00:11:34.234 This is as raw as it gets -- 00:11:34.234.00:11:36.934 We can actually see the impact site itself, 00:11:36.934.00:11:38.701 and I'll remind you, this is for 00:11:38.701.00:11:42.534 A, the first one, not the brightest one, 00:11:42.534.00:11:45.501 so we're going to have a really exciting week. 00:11:45.501.00:11:46.934 So more details to come. 00:11:46.934.00:11:48.534 We just got this data down. 00:11:48.534.00:11:50.601 We haven't had a chance to do anything with it, 00:11:50.601.00:11:52.367 and I'll be talking with you at 10 o'clock 00:11:52.367.00:11:55.734 about what we have actually seen in the larger data set. 00:11:57.634.00:12:00.334 [ Cheers and applause ] 00:12:10.334.00:12:12.434 [ Indistinct yelling ] 00:12:14.367.00:12:15.734 -What's the wavelength, Heidi? 00:12:15.734.00:12:18.968 -This is a methane filter at 889. 00:12:18.968.00:12:20.667 Do you have pencil or pen, something? 00:12:20.667.00:12:23.801 -Yes, here. 00:12:23.801.00:12:25.234 -I don't even have a piece of card board 00:12:25.234.00:12:27.100 to have this mounted on. Okay. 00:12:27.100.00:12:29.000 We just blew up a section of the planet. 00:12:29.000.00:12:30.868 This is the southern pole here. 00:12:30.868.00:12:33.300 You see there's a little -- there's a bright streak. 00:12:33.300.00:12:35.567 -Let me hold it for you. -You see that bright streak? 00:12:35.567.00:12:37.100 And around the edge of the streak, 00:12:37.100.00:12:39.400 there's some other stuff. 00:12:39.400.00:12:41.801 Stuff. [ Laughter ] 00:12:41.801.00:12:44.667 I'll tell you more about the stuff tonight. 00:12:44.667.00:12:46.267 -Whoo! 00:12:46.267.00:12:48.734 [ Applause ] 00:12:55.133.00:12:57.367 [ Laughter ] 00:12:57.367.00:12:59.767 [ Applause ] 00:13:05.667.00:13:08.067 [ Laughter ] 00:13:10.300.00:13:12.701 -I think we may have some more questions here. 00:13:12.701.00:13:14.634 [ Laughter ] 00:13:17.234.00:13:20.834 -Wow. -Would you like to comment? 00:13:20.834.00:13:24.000 -Well, I think you can all lay your worries to rest. 00:13:24.000.00:13:26.868 Those reports from Spain and Chile are right. 00:13:26.868.00:13:29.334 [ Laughter ] 00:13:29.334.00:13:31.667 And I think that we... 00:13:31.667.00:13:34.300 I'll personally bet another taste of champagne 00:13:34.300.00:13:36.834 with Brian Marsden that we've got big objects. 00:13:36.834.00:13:38.167 Those are not puny. 00:13:38.167.00:13:40.133 Not to show the... 00:13:40.133.00:13:41.868 To see the effects that we're seeing, you have to put 00:13:41.868.00:13:43.834 a lot of energy into the atmosphere, 00:13:43.834.00:13:48.167 so I think we're very, very privileged tonight 00:13:48.167.00:13:51.968 to see an event that's not once in a lifetime. 00:13:51.968.00:13:53.400 It's once in a millennium. 00:14:02.567.00:14:05.834 -Good morning from the Goddard Space Flight Center in Maryland. 00:14:05.834.00:14:08.901 You're looking at a very happy group of people after a week, 00:14:08.901.00:14:10.868 a long week of exciting science, 00:14:10.868.00:14:14.400 and this is the Hubble Space Telescope science team. 00:14:14.400.00:14:16.367 Congratulations to all of you. 00:14:17.934.00:14:20.801 [ Applause ] 00:14:25.300.00:14:28.100 And all of you, welcome to the last edition 00:14:28.100.00:14:31.033 of our Daily Comet Update for July 23. 00:14:31.033.00:14:33.267 I'm Don Savage, the public affairs officer 00:14:33.267.00:14:35.167 for the Office of Space Science, 00:14:35.167.00:14:38.267 and we're here at Goddard Space Flight Center today in Maryland, 00:14:38.267.00:14:39.868 and I'd like to go ahead 00:14:39.868.00:14:42.267 and introduce our panelists for today. 00:14:44.534.00:14:45.767 This morning -- 00:14:45.767.00:14:47.067 Before I introduce the panelists, pardon me -- 00:14:47.067.00:14:48.801 This morning, we'll have a look at the impact 00:14:48.801.00:14:50.234 of the last comet fragment 00:14:50.234.00:14:52.400 to hit the planet, which is Fragment W, 00:14:52.400.00:14:54.133 and we'll bring you some early results 00:14:54.133.00:14:57.067 on how the planet has changed due to the impacts, 00:14:57.067.00:14:59.434 and now let me introduce our panelists. 00:14:59.434.00:15:03.634 From left, Dr. Heidi Hammel from MIT, 00:15:03.634.00:15:05.234 a member of the Wide Field Planetary 00:15:05.234.00:15:08.667 Camera 2 team observing the dynamics of the comet's impacts 00:15:08.667.00:15:09.968 on Jupiter. 00:15:09.968.00:15:12.400 To her left, Dr. Melissa McGrath, 00:15:12.400.00:15:14.567 a member of the Faint Object Spectrograph 00:15:14.567.00:15:17.100 and High Resolution Spectrograph teams, 00:15:17.100.00:15:19.167 and she's been observing the results of the comet 00:15:19.167.00:15:21.734 impacts on Jupiter's atmosphere. 00:15:21.734.00:15:25.267 To her left, Dr. Eugene Shoemaker joining us again. 00:15:25.267.00:15:27.100 Of course a long-time comet watcher 00:15:27.100.00:15:28.767 and co-discoverer of the comet, 00:15:28.767.00:15:30.734 and he's an astronomer at Lowell Observatory 00:15:30.734.00:15:32.767 in Flagstaff and Scientist Emeritus 00:15:32.767.00:15:35.701 at the U.S. Geological Survey, 00:15:35.701.00:15:38.667 and to his left, his wife, Dr. Carolyn Shoemaker, 00:15:38.667.00:15:40.667 also a long-time comet watcher 00:15:40.667.00:15:42.834 and co-discoverer of comet Shoemaker-Levy 9 00:15:42.834.00:15:45.434 and astronomer at Lowell. 00:15:45.434.00:15:50.701 To her left, David Levy, co-discoverer of the comet 00:15:50.701.00:15:54.701 and astronomer and writer of popular books 00:15:54.701.00:15:59.133 on astronomy and speaker on the subject of astronomy, 00:15:59.133.00:16:01.601 and to his left, Dr. Lucy McFadden 00:16:01.601.00:16:02.868 from the University of Maryland 00:16:02.868.00:16:04.801 and the University of California, 00:16:04.801.00:16:07.968 a coordinator of the worldwide comet observing campaign 00:16:07.968.00:16:11.100 and a visiting professor at the University of Maryland. 00:16:11.100.00:16:14.367 -Heidi, what was the highlight of the week for you? 00:16:14.367.00:16:16.267 -Well, the first highlight, I think, 00:16:16.267.00:16:17.968 was just the fantastic imaging 00:16:17.968.00:16:20.400 that the Hubble Space Telescope returned to us. 00:16:20.400.00:16:23.667 I think that all of us were astounded by the quality, 00:16:23.667.00:16:26.100 and what we saw in those images, 00:16:26.100.00:16:33.234 plumes, ripples, incredible circulation in the atmosphere 00:16:33.234.00:16:35.634 that is just starting to become apparent. 00:16:35.634.00:16:37.767 All those things were just amazing. 00:16:37.767.00:16:40.534 The auroral arcs as the fragments 00:16:40.534.00:16:42.667 interacted with the magnetic field. 00:16:42.667.00:16:45.300 Sulfur -- I mean, it's just incredible. 00:16:45.300.00:16:47.100 Seeing the comet pieces now. 00:16:47.100.00:16:49.334 Seeing their spectral signature. 00:16:49.334.00:16:51.300 Those were all just absolutely amazing highlights 00:16:51.300.00:16:52.467 for all of us. 00:16:52.467.00:16:53.834 I think, though, that the highlight 00:16:53.834.00:16:55.701 we'll all take back with us 00:16:55.701.00:16:59.267 is seeing the actual impacts occurring, 00:16:59.267.00:17:02.234 seeing those very first images of the A impact 00:17:02.234.00:17:05.334 that none of us expected to see. 00:17:05.334.00:17:08.701 I think that was the biggest highlight for all of us, 00:17:08.701.00:17:09.968 the most exciting thing, 00:17:09.968.00:17:13.434 and we actually have footage to show you of that 00:17:13.434.00:17:16.167 in case you want to see it again. 00:17:16.167.00:17:18.400 There's something... Why don't you go back? 00:17:18.400.00:17:20.400 -This is the first orbit, right? -Yeah. 00:17:20.400.00:17:22.601 This is the latitude that we're looking for something, 00:17:22.601.00:17:23.767 right there. 00:17:23.767.00:17:25.334 Contours, you can tell pretty well 00:17:25.334.00:17:27.467 that there wasn't too much there. 00:17:27.467.00:17:30.767 -Are you sure it's in there? -This is the 4-second 00:17:30.767.00:17:33.067 -Look! Look! 00:17:33.067.00:17:34.200 -[ Gasps ] -Look. 00:17:34.200.00:17:35.334 -Oh, wow. -Yeah, that's it. 00:17:35.334.00:17:37.067 -Oh, my god. -That's it. 00:17:37.067.00:17:38.868 -Look at that. 00:17:38.868.00:17:40.367 Look at... 00:17:40.367.00:17:42.501 [ Indistinct conversations, applause ] 00:17:46.033.00:17:49.100 -Okay. 00:17:49.100.00:17:50.267 -Look at it. 00:17:50.267.00:17:51.834 Look at 9:53. 00:17:51.834.00:17:54.667 -Wow. 00:17:54.667.00:17:57.100 -Look at that. -Whoa! 00:17:57.100.00:17:59.467 [ Indistinct conversations ] 00:18:05.133.00:18:07.033 -Unbelievable. 00:18:07.033.00:18:08.667 Wow. 00:18:09.801.00:18:11.601 -Yay! 00:18:11.601.00:18:14.000 [ Applause ] 00:18:16.300.00:18:17.767 [ Laughter ] 00:18:17.767.00:18:20.234 -All right. [ Laughs ] 00:18:20.234.00:18:21.801 Okay. That's great.