Skip to main content

Fly your name to the moon as part of historic NASA mission

An illustration of NASA's Volatiles Investigating Polar Exploration Rover (VIPER) on the lunar surface.
Illustration of NASA’s Volatiles Investigating Polar Exploration Rover (VIPER) on the surface of the Moon NASA Ames/Daniel Rutter / NASA Ames/Daniel Rutter

NASA likes to bring its missions closer to space fans around the world — especially to the younger generation to get them interested in science subjects — and part of these efforts involves the chance for people to fly their names on spacecraft heading off to explore parts of our solar system.

The next opportunity to submit your name for inclusion on a NASA rocket flight is the VIPER mission, which features the space agency’s first-ever robotic moon rover.

VIPER (Volatiles Investigating Polar Exploration Rover) will launch later this year and is set to explore the lunar South Pole, a region that includes some permanently shadowed areas that are of great interest to scientists who are searching for the presence of water ice. This important resource could eventually be harvested to sustain human exploration on the moon and also Mars, and even be processed to create fuel to power rocket launches from our nearest neighbor.

NASA’s VIPER robot will be the first rover to measure the location and concentration of water ice and other resources, so it’s findings could potentially be a game changer for the way we prepare for and conduct long-duration missions in space.

To fly your name to the moon, simply head to NASA’s special webpage and enter your name and a PIN code that will enable to access your boarding pass closer to the launch of the VIPER mission, which is currently scheduled for November 2024. So far more than 13,000 people have signed up to send their name to the moon.

The VIPER mission is expected to last 100 days, during which time the robotic rover will travel several miles over crater rims and into permanently shadowed craters, sampling different kinds of lunar soils and environments as it goes.

“VIPER represents the first resource mapping mission on another celestial body and will deepen our understanding of how frozen water and other volatiles are distributed on the moon, their cosmic origin, and what has kept them preserved in the lunar soil for billions of years,” NASA says on its website.

NASA had hoped to launch VIPER in November 2023 but delayed it by a year to carry out additional ground testing of Astrobotic’s Griffin lunar lander that will deliver the rover to the lunar surface.

Trevor Mogg
Contributing Editor
Not so many moons ago, Trevor moved from one tea-loving island nation that drives on the left (Britain) to another (Japan)…
NASA astronauts will try to grow plants on the moon
An artist’s concept of an Artemis astronaut deploying an instrument on the lunar surface.

An artist’s concept of an Artemis astronaut deploying an instrument on the lunar surface. NASA

It was almost a decade ago when astronauts aboard the International Space Station sat down for a meal of historical significance as it was the first to include food -- albeit only lettuce -- grown and harvested in space.

Read more
Meet NASA’s trio of mini moon rovers set to launch next year
Part of NASA’s CADRE technology demonstration, three small rovers that will explore the Moon together show off their ability to drive as a team autonomously – without explicit commands from engineers – during a test in a clean room at the agency’s Jet Propulsion Laboratory in December 2023.

NASA is ramping up its plans for exploring the moon, not only in terms of preparing to send astronauts there but also rovers. There's the VIPER rover, which will search for water around the lunar south pole, and now NASA is introducing a trio of mini rovers called CADRE, or Cooperative Autonomous Distributed Robotic Exploration. These will work together as a team to map the lunar surface, testing the possibilities of using rovers in groups for future exploration.

The rovers, developed at NASA's Jet Propulsion Laboratory, are just the size of a carry-on suitcase. They are designed to move independently but share data so they can cover more ground than a single rover could. They'll have to work over a lunar day, which is about two weeks, to map out features on the surface and look below ground using radar.

Read more
Odysseus lunar lander sends a ‘fitting farewell transmission’ to Earth
An image captured by Intuitive Machines' Odysseus lunar lander.

Despite a messy landing that left the Odysseus spacecraft with a broken leg and tilting over, the team at Intuitive Machines has hailed its IM-1 lunar mission a success.

That’s because it managed to get Odysseus onto the lunar surface largely in one piece and operating well enough to send data back to Earth.

Read more