Getting there is the easy part...

I read a fascinating article tonight on some of the challenges associated with a crewed Mars mission. I've read several books and articles on all of the standard problems that people think of when they think about sending humans to Mars: Launch weight restrictions, fuel restrictions, transit time, resource usage on-flight and on-mission, but it turns out that a lot of people have taken for granted one of the most obvious hurdles: actually landing on Mars.

Turns out that because the density of Mars' atmosphere is so low (1/100 that of Earth), landing large payloads, like you would need to land humans on the surface, is a very difficult proposition. Basically, the atmosphere is not dense enough to create enough drag on a large spacecraft to slow it sufficiently to use traditional landing techniques (parachutes, space shuttle-style lifting bodies) before you are a crater. Techniques that have been used to land on Mars previously, like deceleration thrusters (Viking) or airbags (Sojourner, MER) are either not powerful enough or expose the spacecraft to unacceptably high G-forces (10-20 G) that would kill human occupants. On the flip side, the Apollo-style lunar lander would also not be useful because in that case, Mars has too much atmosphere for a straight thruster-only descent - you would create very dangerous and unpredictable forces due to the interaction of the rocket plume with the atmosphere - something you didn't have on the airless moon.

So, there is this huge gap in knowledge that they are trying to figure out. How do you slow a 100 metric ton spacecraft from 7-10 km/s to under Mach 1 without killing everyone in the process? Turns out that might be the hardest thing about getting people on Mars.

Link to the article.