At the moment, our spacecraft rely on a two-way relay system that needs to bounce signals to and from Earth-based atomic clocks to figure out where it is and where it's going. It uses the time that it takes to send a signal and to receive a response to calculate for its location, path and velocity. The process could take anywhere from a few minutes to a few hours, depending on how far the spacecraft is from our planet. That's why we need a technology that'll allow astronauts to know where they are and to change courses quickly if we want to see more of the universe.

The Deep Space Atomic Clock was designed to live onboard a spacecraft and to calculate for its location and route using only signals it receives from Earth -- it doesn't need to bounce signals back anymore. In other words, space vehicles equipped with the device could give itself directions. The technology could also be used to create a GPS-like network in other places, such as Mars, by having multiple spacecraft fitted with the device orbit the planet. In addition, it could improve the GPS technology we use on Earth.

The test clock will remain in space for a year to help NASA figure out whether it can remain stable in orbit. If all goes well, it could be used for missions as early as the 2030s. You can watch the first Deep Space Atomic Clock leave Earth aboard a Falcon Heavy on June 24th through NASA's livestream. SpaceX is aiming for an 11:30PM launch, so the broadcast will begin shortly before that.