John Carpenter, this movie, and Escape from New York plagiarism. Metal Gear Solid also as an Escape ripoff. Running popular media through a “Hideo Kojima filter” to see what comes out.
Side-mounting your spacecraft. Flying a brick. Deorbiting and landing in the space shuttle’s “orbiter.” Wiggle-worm descent. Having only one chance because all of your fuel was spent getting out of orbit. Returning to shuttle-like designs with mag-lev mountain-ramps.
Inert gas asphyxiation
Nitrogen! Biologically inactive gas asphyxia vs potentially-toxic: CO2, CO, etc. Hypoxia.
Falling out of space
The slim odds of hitting the ISS when accidentally de-orbiting. Space is… small? Understanding what “orbit” really means. HALO/HAHO jumping, Baumgartner’s Stratos jump, and the incredible difficulty of jumping out of orbit ffs. Copyrighting all of the “totally radical” stunts.
Breaking the sound barrier
The difference in the “speed of sound” at different atmospheric densities. Terminal velocity at high altitudes. Air is more “sticky” than you might expect. Why didn’t Felix Baumgartner “burn up” on reentry?
“Jumping down” from a space station and how that is not sufficient for deorbiting. Megaconstellations and space junk.
Compounding acceleration in the relative vacuum of space. Incredible efficiencies versus chemical rockets, and the very low force produced making it only appropriate once spaceborn. The differing problems solved by chemical rockets and ion drives. The benefit of ion drive once out of Earth’s gravity well and going far away. Earth’s tectonic plates, slowly building up to escape velocity. That beautiful blue glow. “Ionic wind” aircraft in-atmosphere: a completely silent aircraft motor with no moving parts!
Landing in spaaaaace
Methods of landing on Mars: Aeroshells, parachutes, rockets, and balloons. Past examples. Different bodies in space and their particular atmospheric densities, atmospheric conditions, and gravitational acceleration.
Nuclear power solutions
Nuclear power vs solar cells. People’s presumption of full-on nuclear reactors rather than the smaller and less-efficient radioisotope thermoelectric generators like on Curiosity. Wondering why we don’t use tiny nuclear robots to blow the dust off of the solar robots. NASA, call us for more great ideas.
Martian dust storms. The low density and force of Martian dust storms, contrary to popular depictions. The visual impressiveness of huge Martian dust storms from space relative to actual effect. The (low) density of the Martian atmosphere and its make-up. How 60mph dust storms are are actually not that powerful: with low gravitational acceleration, static charge, it is very very easy it is to keep dust particles aloft.
Orbital centricity words
The revelation that “geocentric” and “geostationary” apply very specifically to only Earth and there are other words particular to the other major bodies in our solar system. All of the other centricity classifications, including Arecentric for Mars as in the film (though they don’t use it).
Hypoxia and inability to give detailed instructions to your AI on how to disperse the spirit of humanity into the universe.
2036 Origin Unkown: Netflix | Amazon | iTunes
Why You Should Put YOUR MASK On First (My Brain Without Oxygen) by Smarter Every Day: YouTube
How Do Ion Engines Work? The Most Efficient Propulsion System Out There by Fraser Cain: YouTube