How solar and lunar eclipses work.<br /><br /><br />Note: This is an update of a video we published in 2015.<br /><br /><br />Sources:<br />Getty Images<br /><br />NASA: <br />Eclipse catalog: <br />Dmitry Chulkov: <br />Bernt Rostad: <br />mtsrs: <br />CNES/CNRS/NASA: <br />Marc Aragnou: <br />Jesse Olson: <br />redwing115: <br />Xavier Jubier: <br />vfr800hu: <br />mikewattsuk/bbc: <br /><br /><br />Subscribe to our channel! <br /><br />On August 21, 2017, a total solar eclipse is coming to the continental United States for the first time in 38 years, which may make it the most viewed total solar eclipse in history. These events generate so much excitement because the orbital mechanics of the earth-moon-sun system keep the moon's shadow small and mobile. It will touch any given spot on the planet only once in over 300 years on average. For that reason, most people must make a concerted effort if they are to witness this event in their lifetimes. In this video we explain the differences between a solar and lunar eclipse and why some believe that a total eclipse of the sun is the greatest natural phenomenon of them all. <br /><br />Vox.com is a news website that helps you cut through the noise and understand what's really driving the events in the headlines. Check out to get up to speed on everything from Kurdistan to the Kim Kardashian app. <br /><br />Check out our full video catalog: <br />Follow Vox on Twitter: <br />Or on Facebook:
