1 00:00:00,030 --> 00:00:05,400 [ music ] 2 00:00:05,420 --> 00:00:08,980 From a distance, everything in our solar system appears to be in its place. 3 00:00:09,000 --> 00:00:13,560 However, if you take a closer look, sometimes you can find asteroids, like Bennu, 4 00:00:13,580 --> 00:00:17,680 leaving their home in the inner asteroid belt and passing very close to Earth. 5 00:00:17,700 --> 00:00:24,480 Most other asteroids tend to stay grouped together in a few regions of our solar system, yet some still end up in our backyard. 6 00:00:24,500 --> 00:00:30,480 So once these asteroids get close, what makes the difference between a near-miss, and a potential hit? 7 00:00:30,500 --> 00:00:34,380 NASA's OSIRIS-REx mission will help better answer this question when it visits Bennu, 8 00:00:34,400 --> 00:00:39,250 but scientists think that a force called the Yarkovsky effect might be an important part of the answer. 9 00:00:39,270 --> 00:00:46,680 So how does this effect work? Well, like Earth, most asteroids rotate slowly as they move through space. 10 00:00:46,700 --> 00:00:52,420 During the day, the surface of the asteroid is illuminated by the Sun, so it absorbs heat and grows warmer. 11 00:00:52,440 --> 00:00:57,910 During the night, however, the surface cools down, emitting the heat it absorbed as radiation. 12 00:00:57,930 --> 00:01:05,550 This radiation exerts a force on the asteroid, acting as a sort of mini-thruster that can slowly change the asteroid's direction over time. 13 00:01:05,570 --> 00:01:12,480 On larger asteroids this doesn't amount to much, but on small ones it can make a pretty large change over time. 14 00:01:12,500 --> 00:01:15,630 Because the surface emits the most heat radiation at the end of the day, 15 00:01:15,650 --> 00:01:20,380 the direction the asteroid rotates can ultimately determine what happens in the long run. 16 00:01:20,400 --> 00:01:29,080 Other factors, such as composition, asteroid shape, and surface features, can modify the magnitude and direction of the Yarkovsky thrust. 17 00:01:29,100 --> 00:01:32,830 By studying the Yarkovsky effect on Bennu with the OSIRIS-REx spacecraft, 18 00:01:32,850 --> 00:01:36,820 NASA scientists hope to better predict how an asteroid might move through the solar system, 19 00:01:36,840 --> 00:01:40,320 and whether it poses any danger to us here on Earth. 20 00:01:40,340 --> 00:01:47,580 So the next time an asteroid starts gradually moving into our neighborhood, we'll have a better idea of exactly where it will end up. 21 00:01:47,600 --> 00:01:49,530 22 00:01:49,550 --> 00:02:03,470 [ satellite beeping ]