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The Mathematics of a Trip to Mars?

Posted by Cliff on from the shouldn't-it-be-more-complex-than-this dept.

hakonhaugnes wonders: "Since trips to Mars seems commonplace (NASA has sent one every 26 months), I thought it made sense to try to understand how the interplanetary trajectory is calculated. NASA's page is deploringly void of intricate details. I found this excellent page, but it still left me feeling that I was missing something. Surely the calculus must go beyond two bodies (mars/earth)? (It seems there are commercial MATLAB scripts available but at $150 it went beyond the defensible to satisfy my curiosity). Are there any curious Slashdot readers with the usual great insight into how to calculate a trip to Mars?"

5 of 373 comments (clear)

  1. Re:Simple Newtonian by sploxx · · Score: 5, Insightful

    Anyway he told us that most of the mathematical calculations that the Space Flight Center here in Houston use are the "simple" Newtonian laws of motion.
    Sure. To use Einstein's general relativity would be overkill as the changes are too small.

    But Newtons laws can get arbitrarily complex with the number of bodies that go into the equation.

    One is newton's axiom.
    Two is still easy and taught in school. Kepler ellipses etc. Together with the rocket equation (also only newton), it gives everything needed to go to earth orbit.

    But.. three is not analytically solvable. From there, numerics takes over and this is still a very active field of research, still far from perfect. But they're surely good enough :-)

  2. Re:method... by FLAGGR · · Score: 4, Insightful

    Um, okay, great. Gravity from lets say Jupiter stops at the asteriod belt right? Every thing can make a tiny difference. Also not the poster is asking how to plot a course, and you're giving the equation to calculate the newtonian gravity between two objects. Related, yes. An answer, no. Knowing how many newtons of force your getting from all these bodies doesn't solve the problem. You're fired.

  3. Fear and Fear Itself by Doc+Ruby · · Score: 5, Insightful

    The mathematical models for ballistic missiles isn't what's stopping "terrorists" from making them. What stops terrorists is that it's so much cheaper, faster, more reliable and easier to load a truck full of fertilizer and fuel oil, then blow up a skyscraper or maybe a bridge. Or just release a $25 video "around election time", which is about 18 months every 2 years (75% of the time). Both of which create terror, which is the entire point of terrorism.

    There was a time when such math was secret, and strategic. But we caught up to the Soviets shortly after they tested that ballistic missile math on Sputnik, in the late 1950s. A half century later, our open society has proven more than a match for such "proprietary" losers. If we can stay that way, despite the exaggerated bugbears that people throw around to justify the secrecy that kills both science and liberty.

    --

    --
    make install -not war

  4. Porkchop Plots by everphilski · · Score: 3, Insightful

    Yup. You have to do trade studies with lots of iterations. On one axis you have launch date, on the other you have arrival date, and you start plotting. You can then vary your trans-martian-injection burn, and what your get are called Porkchop plots, cause they look like porkchops.

    -everphilski-

  5. Nope. Not really. by everphilski · · Score: 4, Insightful

    Any orbital mechanics textbook will give you more than enough information to calculate this for yourself. One of my final exam questions in spacecraft design was to design a moon mission, in about 15 minutes. Mars isn't much harder, just further away, it's the same problem.

    "Elements of Spacecraft Design" by Charles D. Brown has a few good chapters on orbital mechanics. Check a local university library, cause the book cost me nigh unto $100 :P

    -everphilski-