1 00:00:00,000 --> 00:00:03,560 music 2 00:00:03,560 --> 00:00:08,000 Narrator: NASA's Parker Solar Probe is a mission to explore the Sun. How can it do that? 3 00:00:08,020 --> 00:00:11,380 Why won’t the spacecraft melt? Excellent questions. 4 00:00:12,200 --> 00:00:16,200 You can’t face off with the sun without packing the right gear. 5 00:00:16,210 --> 00:00:20,200 This is why Solar Probe is equipped with a white shield that reflects heat off the front and keeps things cool in the back. 6 00:00:20,220 --> 00:00:24,200 Betsy Congdon: The heat shield is made of a couple of different materials. 7 00:00:24,220 --> 00:00:28,210 One is of carbon carbon which is a lot like the graphite epoxy 8 00:00:28,220 --> 00:00:32,000 you might see in your golf clubs or tennis rackets, but it’s been super heated. 9 00:00:32,000 --> 00:00:36,200 The inside is a carbon foam which is another form of carbon which 10 00:00:36,220 --> 00:00:39,640 is about 97% air. It's a very light weight way of making 11 00:00:39,640 --> 00:00:41,620 a very strong structure. 12 00:00:41,620 --> 00:00:48,400 Narrator: Nobody likes a needy explorer. Solar Probe can take care of itself, thank you very much, 13 00:00:48,420 --> 00:00:52,400 and that’s because it has autonomy software that will keep its instruments safe and cool behind the heat shield. 14 00:00:54,280 --> 00:00:56,420 We are too far away to joystick it into place, 15 00:00:56,440 --> 00:01:00,430 so it basically has to always be sensing whether 16 00:01:00,450 --> 00:01:04,430 or not the heat shield is in the right position and correct itself 17 00:01:04,450 --> 00:01:08,450 if it isn’t. There are these things called solar limb sensors, 18 00:01:08,470 --> 00:01:12,460 just poking out at the very edge of the shadow. If those get illuminated, 19 00:01:12,480 --> 00:01:16,470 the spacecraft knows, “Oh, I’m going the wrong direction,” and can actually right itself. 20 00:01:16,490 --> 00:01:20,480 Narrator: It’s important to stay hydrated in the Sun, even for a spacecraft! 21 00:01:20,500 --> 00:01:24,480 Solar Probe circulates water to keep the solar cells 22 00:01:24,500 --> 00:01:27,860 from overheating. It stays cool and keeps power. 23 00:01:27,860 --> 00:01:32,480 Betsy: Basically water flows behind the solar arrays and into the radiators, 24 00:01:32,510 --> 00:01:36,510 so the water warms up behind the solar cells and then cools 25 00:01:36,520 --> 00:01:40,340 down at the radiator that heat transfer is happening a lot like 26 00:01:40,340 --> 00:01:41,740 the veins in your body 27 00:01:43,920 --> 00:01:48,520 Narrator: Yes, you read right: Heat is not the same as temperature. Temperature is a measurement, but heat is an energy transfer. 28 00:01:48,540 --> 00:01:52,520 This matters because Solar Probe will be 29 00:01:52,540 --> 00:01:56,530 visiting the sun’s outer layer, the corona. Like all stars, 30 00:01:56,550 --> 00:02:00,540 the Sun is made of plasma. How tightly packed that plasma is 31 00:02:00,560 --> 00:02:04,740 depends on the layer. While the Sun’s corona has a very high temperature 32 00:02:04,760 --> 00:02:08,740 the plasma particles are fairly spread out, so even though the temperature 33 00:02:08,760 --> 00:02:10,960 in the corona is 2- to 3-million degrees Fahrenheit, 34 00:02:10,960 --> 00:02:13,960 the heat around the spacecraft is manageable. 35 00:02:13,960 --> 00:02:19,660 Betsy: The corona and where we are going is actually not that dense at all, there’s only a couple particles. 36 00:02:19,720 --> 00:02:24,740 Those are very hot, but we aren’t touching a lot of them. 37 00:02:24,770 --> 00:02:28,760 So, it’s kind of like when you put your hand into an oven. The oven might be at 400 degrees Fahrenheit, 38 00:02:28,780 --> 00:02:32,240 but your hand isn’t going to be at 400 degrees Fahrenheit. 39 00:02:32,240 --> 00:02:37,160 Narrator: Thanks to its design and destination, this cool, confident spacecraft is all set to explore. 40 00:02:37,160 --> 00:02:41,300 We can just sit back and chill, as Parker Solar Probe takes the heat. 41 00:02:41,300 --> 00:02:44,860 music 42 00:02:44,880 --> 00:02:48,880 tone