SPACEBAR to Shoot the Cue Ball > 커뮤니티 카카오소프트 홈페이지 방문을 환영합니다.

Getting everybody in the world to jump at the same time. You jump up, the Earth goes down: you fall down, the Earth comes up to meet you. Suppose they were all at the exact same point on Earth (which they won't be, thus mitigating the effects of the jump). A 40-tile rug, using the same drawgroups as the typical 9-tile - that means simply choose your favorite rugs, export their sprites from tmog, and import them into this one. Plan it right, and you can couple it together with the Earth with gravity alone, using the solar wind to balance out the Earth's gravitational attraction. The major problem here is figuring out how to pick up big pieces of continental plate without breaking them. Another, more sophisticated, problem is that the Earth is constantly spinning. Electromagnetic influence. Traditionally the Earth is thought of as "ground", "neutral". The Earth is very big, moving very fast, and therefore very difficult to stop or even slow down. Jumping up and down to try to move the Earth is like mounting a fan on a sailboat, pointing the fan at the sail, and expecting the boat to move forwards.

The zip below was a Beta butler that would hang out at the door and greet people, shaking their hands and allowing them to enter - but it was buggy for some folks, and I'm too lazy to hack at it anymore, but if you want to try your hand at something technically challenging circa 1st Quarter 2003, then download the "source," so to speak. Download the butler today! The principle here is much the same, with the railguns behaving somewhat like discretized versions of thrusters, providing instantaneous changes in velocity as opposed to sustained steady change. Anyways, hope you like them. You could build an engine at either pole and this wouldn't have any effect, but anywhere else and the constantly changing angle of thrust will cause the Earth to behave somewhat like a loose Catherine Wheel-type firework. Maybe. Or better yet: the Earth already has a standing magnetic field; perhaps we could construct a cylinder of cable around it, and pass current to move it using Lorentz forces.

Construct a huge solar sail with a significant mass. Since the Sun carries the vast majority of the entire mass of the solar system, any force which moves it is likely to drag all of the planets along with it. It is possible to use a solar sail to steer the Earth into the Sun. Solar sail method. I can't honestly add much to that article except to say that to move the Earth substantially, what is billiards the sail used is going to have to be pretty big. Add one tablespoon of cooking oil per box to keep the noodles from sticking and to ensure maximum slipperiness for your guests. Another solution is to add more gimbals to the system. This can be employed to move the Sun and Earth in tandem to a place where the Earth can more easily be destroyed. If balanced correctly, the "hat" neither falls into the Sun nor is blown away. Build an enormous lightweight "hat" for the Sun, which catches the Sun's rays. With half of the Sun's radiation blocked/reflected in the opposite direction, the Sun now has a net thrust upwards (i.e. in the direction of the "hat").

Moving the Sun is about 6 orders of magnitude more difficult than moving the Earth but the Sun is continuously emitting energy which can be productively harnessed for this purpose. Gravity assistance. This is a method originally proposed as a means of moving Earth to a higher orbit around the Sun in order to save it from the Sun's inevitable Red Giant expansion. Just use it to tack against the direction in which the Earth is travelling, gradually slowing its orbital velocity and increasing the orbit's eccentricity, until the orbit passes within the Roche limit where the Earth is torn apart by tidal forces. You could reuse the same asteroid again and again, looping it around a few gas giants and back to gain lots more kinetic energy from those gas giants in the same way that Earth just gained velocity from the rock. And lastly, suppose that they all jumped at precisely the same instant, which of course they will not, seeing as the time difference between the fastest watch and the slowest will likely be over five minutes. It all depends how fussy you are about how the Earth looks afterwards, of course.