Frankly, that goes without saying — their technology is more advanced than at any point in history, and since the Apollo missions, NASA has sent over a dozen orbiters and landers to the Red Planet in order to scope out its geography, atmosphere, chemical composition, and much more.
Here’s a diagram of all the NASA probes that have or will visit Mars, and how each new mission has brought us that much closer to sending humans:
However obvious NASA’S bold statement may seem, it’s one the agency is proud to make: This is the first time in over 45 years that the US — as well as humankind — has a chance to visit another world beyond Earth.
Could it be that NASA will once again write history by sending the first humans to walk on the surface of Mars? Their plans certainly aim to do so.
A long road
To get the Apollo astronauts off the ground, the US federal government was pouring between 4% and 4.5% of its total budget into NASA. But by 1970, public interest was waning and the federal government was turning their sights from space and back to Earth.
By the time the last Apollo mission to the moon was complete, NASA’s funding had dropped from 4.5% to just above 1%. And by the turn of the century, that number was quickly dropping to less than 0.5%.
So, to get the tools, technologies, and wherewithal to finally say that they are closer to sending humans to Mars than ever before is more of a testament to NASA’s progress over the years than an obvious statement.
Journey to Mars“The journey to Mars passes through three thresholds, each with increasing challenges as humans move farther from Earth,” NASA state in their report.
These thresholds are:
1) Earth reliant: This involves scientific investigations currently being performed on board the International Space Station that examine the impacts of space on human health and plant and animal growth. It also includes testing technologies like 3D printing, extra-vehicular activities (EVA), and what they call in-situ resource utilization
ISRU is NASA’s push to learn how to utilize resources on exploration sites like the moon, asteroids, and Mars. Their Mars 2020 rover will be equipped with one of these new technologies — a machine that can turn the carbon dioxide in Mars’ atmosphere into oxygen.
2) Proving ground: In the near future, humans will begin traveling beyond low-Earth orbit and the ISS to explore deeper regions of space. By the 2020s, NASA hopes to have brought a small asteroid into orbit around the moon through their Asteroid Redirect Mission (ARM) where astronauts will visit the asteroid and collect samples for scientific analysis.
Missions like these will test the latest spacecraft and technologies that NASA is building right now, including their Space Launch System (SLS) rocket and Orion spacecraft, designed for a crew of up to four and for deep-space missions like ARM and Mars landings.
3) Earth independent: After that, it’s onto Mars. Colonies on Mars will need to be fairly independent because it takes at least six months to get from Earth to the Red Planet. These first colonies on Mars will test how well humans can utilize the Red Planet’s resources.
Here’s a schedule of NASA’s plans over the next few years: