That's my problem. Creating a map of a fictional planet wouldn't be the hard thing. that hard part would be in creating it that is believable to the reader when you proceed to describe the way the oceans currents flow, or the way the terrain on the surface affects the weather.
Any ideas on how to proceed with the correct description of planetary forces on a fictional world?
My current computer is a little slow, and can't read the menu bar on the site, but I've been on it before (I'm pretty sure it's this one...). Anyway, it helps you make a scientifically sound planet from scratch. It has a lot of information and articles for exactly what you're trying to do.
Regarding currents: note that earth currents go against rotation at the equator, then curve north/south depending on hemisphere, and make a circle. East of a cold current at subtropical latitudes, you find desert. The only other deserts in the world are Gobi (very far from oceans) and some of Antarctica. Just a neat observation.
My own built world (inspired by the same class from the link above) is at http://cs-netlab-01.lynchburg.edu/users/briggs_w/fiction/planet/index.html
[This message has been edited by wbriggs (edited August 02, 2005).]
The natural processes on your fictional planet should work the same way as the processes on earth, unless you add some factor that alters them (magic, no planetary rotation, no water, cooled planetary core, etc). Plate tectonics, ocean currents, and weather patterns will all vary depending on your placement of the plates, the size and shape of the oceans, and the temperature and makeup of the atmosphere.
There's no quick answer to your question though. You just have to draw a map of the entire planet, then apply what you know about earth's processes to it.
There used to be a program called SimEarth which you used to create a world from scratch. You can still find copies from time to time. It runs in DOS but there are ways around that.
Use it and base your world on the world you create and you should be fine.
But, as noted, those planets are...well, not very much like Earth. If you want a planet to be Earth-like, then probably most of the same features of geology that are found on Earth will be found there as well. For instance, you'll need to have oceans for there to be much life. If you want land, you'll need plate tectonics to build up continents and so forth by producing granite and other oxidized minerals and shoving them together. You'll want a strong magnetic field to protect you from ionizing radiation, so a nickle/iron type core and electrically charged convection currents are probably a good idea. You know, all the basics.
) that your best bet for life is a planet like Earth in most of its characteristics. But violations of that make it interesting.Plate tectonics: if you don't have continents, you don't get land life -- and w/o having them float on a bed of magma, erosion will destroy any static continents.
Still, we found fun variants in Niven's Known Space. Jinx, Canyon, Plateau.
1) Learn a lot about real geology. Researching can be one of the most rewarding parts of beginnig a new story, if you enjoy studying on your own and learning new things. It can also take a lot of time though, so you're second option would be...
2) Talk to someone who does. The last time I wanted to create a story with a strange new planet, I called my aunt, who has a masters degree in geology. I hadn't called her in years, so it was good to get in touch again, and she was all too happy to explain a few things for me (and save me from looking like an idiot if I had went along with some of my original ideas about how my planet's geology might work). Mikemunsil has kindly offered to help out in this way here. Take advantage of it.
3) The last (and sometimes best) option is to just not worry about it. Learn just a little bit about geology, and then be vauge about any specific references so that you haven't stated enough to actually be wrong.
In my case, I wanted a planet four times the size of earth, but with earth like gravity levels. After trying several ideas to explain how this could be possible, I finally realized that the story worked best if I just didn't explain it all. I just stated that it was so as if I knew what I was talking about, and then went on to more important things. (Your case is a little different than that, but the same principle can be used.)
Oh, and what do you mean by "four times the size"? Volume or diameter or mass or what(I suppose that surface area is the only one left)? If it were four times the mass, then you'd need it to be twice the diameter to have the same gravity, which would also give you four times the surface area. Doesn't sound too hard to me. It couldn't be very Earth-like, though.
So it doesn't work. But since it has to work for the story, you have to make up fake geological theories to make it happen, or (which is what I did) you just assume that those fake goelogical theories are there, without ever actually including them in the book.
Now, I'm not saying that you can do that in every case, and you don't want to be completely scientifically wrong in your books, but I've read far too much Sci-Fi that spends so long trying to explain why this or that is possible that the story drags along at a snail's pace. On the other hand, if the story is exciting enough your readers often won't have time (or desire) to start asking "how is that possible" questions.
Earth's core is bigger than that of Mars or Venus, and the moon either doesn't have one or has a very very tiny one. The best theory I know is that two planet-sized things collided, forming the earth and moon (this model also explains why the moon's orbit is so close to circular), and the bigger one got all the iron.
But 4 times may be too much!
Like AA's aunt said, it wouldn't be very earth-like. For my part, I wonder why it would need to be four times the size of Earth. Why not just have twice the land mass? That would make the oceans too salty for most life, of course, but the salt content reaches a point where as much salt is being subducted as is being leeched from the rocks (that's not actually a point, because the salt content of the continents starts to increase too, but things slow down). Or the planet could have just started with a bit less water (or lost it somewhere along the way). True, you can't get four times the land mass without getting rid of pretty much all your water (which would be very not like Earth in important and obvious ways) but then again, I'm not clear why you want so much surface area anyway.
Edited to avoid consecutive posts.
You might want to pick up the Special Edition of Scientific American (on stands until Sept 26 if you believe the cover). It is entitled "Our Ever Changing Earth" and looks quite interesting.
[This message has been edited by Spaceman (edited August 06, 2005).]