WEBVTT FILE 1 00:00:01.168 --> 00:00:04.371 If your night sky is clear this weekend, try taking a look at 2 00:00:04.371 --> 00:00:08.075 Jupiter, our solar system’s largest planet. Jupiter is in 3 00:00:08.075 --> 00:00:12.112 opposition on April 7th, meaning the planet is directly opposite 4 00:00:12.112 --> 00:00:15.816 in the sky from the Sun and it’s relatively close and bright. 5 00:00:15.816 --> 00:00:18.952 Jupiter is rising as the Sun sets and setting as the Sun 6 00:00:18.952 --> 00:00:22.823 rises, so it’s up all night long in the constellation Virgo, and 7 00:00:22.823 --> 00:00:25.525 depending on the time of night, you can view three or four of 8 00:00:25.525 --> 00:00:29.563 Jupiter’s largest moons through binoculars or a small telescope. 9 00:00:29.563 --> 00:00:32.032 And if you want to know what Jupiter looks like through a big 10 00:00:32.032 --> 00:00:35.669 telescope, here's an image of Jupiter that NASA’s Hubble Space 11 00:00:35.669 --> 00:00:40.340 Telescope took just a few days ago, on April 3rd, 2017. Hubble 12 00:00:40.340 --> 00:00:43.443 regularly takes observations of Jupiter as part of its Outer 13 00:00:43.443 --> 00:00:47.714 Planets Atmospheres Legacy program, or OPAL. That program 14 00:00:47.714 --> 00:00:50.584 has been able to observe movements in Jupiter’s clouds to 15 00:00:50.584 --> 00:00:54.354 measure the speeds of Jupiter’s winds, study color changes, and 16 00:00:54.354 --> 00:00:57.391 watch changes on the Great Red Spot, a huge storm on the 17 00:00:57.391 --> 00:01:00.794 planet. The Great Red Spot is larger than the size of Earth, 18 00:01:00.794 --> 00:01:03.797 and has been shrinking over the past 100 years, becoming more 19 00:01:03.797 --> 00:01:07.901 and more round. The OPAL program makes global maps of Jupiter 20 00:01:07.901 --> 00:01:11.405 that can be rendered onto a spherical model, and the team 21 00:01:11.405 --> 00:01:13.807 will be working in the coming weeks on a new set of global 22 00:01:13.807 --> 00:01:17.244 maps of Jupiter from these latest observations. So this 23 00:01:17.244 --> 00:01:19.646 image we’ve shown you is really just a preview of what’s to 24 00:01:19.646 --> 00:01:23.617 come. But that’s not the only way Hubble observes Jupiter. 25 00:01:23.617 --> 00:01:26.520 Hubble has been able to observe auroras on Jupiter in 26 00:01:26.520 --> 00:01:29.790 ultraviolet wavelengths with its Space Telescope Imaging 27 00:01:29.790 --> 00:01:33.393 Spectrograph. And Hubble has been able to observe the greater 28 00:01:33.393 --> 00:01:37.464 Jovian system of Jupiter and its moons - it’s taken images like 29 00:01:37.464 --> 00:01:40.801 this one of Callisto, Europa, and Io transiting across the 30 00:01:40.801 --> 00:01:44.738 disk of Jupiter; Hubble has observed Ganymede’s auroras move 31 00:01:44.738 --> 00:01:48.108 in a way that suggests the moon has an underground saltwater 32 00:01:48.108 --> 00:01:51.945 ocean; and Hubble has seen evidence of water vapor plumes 33 00:01:51.945 --> 00:01:55.582 erupting from the surface of Europa. NASA uses Hubble 34 00:01:55.582 --> 00:01:59.119 observations of Jupiter to help guide its robotic planetary 35 00:01:59.119 --> 00:02:02.856 explorers - the global maps of Jupiter from the OPAL program 36 00:02:02.856 --> 00:02:05.525 provide context for the Juno spacecraft’s up-close 37 00:02:05.525 --> 00:02:09.129 observations, and Hubble’s evidence of water vapor plumes 38 00:02:09.129 --> 00:02:12.733 on Europa provides targets for the upcoming Europa Clipper 39 00:02:12.733 --> 00:02:15.936 mission. So while you're looking at Jupiter in your own night 40 00:02:15.936 --> 00:02:19.406 sky, take a minute to celebrate the robots and spacecraft, like 41 00:02:19.406 --> 00:02:22.776 the Hubble Space Telescope, that are ever expanding what we know 42 00:02:22.776 --> 00:02:23.944 about our solar system. 43 00:02:23.944 --> 00:00:00.000 www.nasa.gov/hubble @NASAHubble