Earth

Picture property of: Illustra Media-The Privileged planet.

Our earth has it's crust divided into what is called tectonic plates. These plates are thin enough to where plate tectonic recycling can take place. There are more than a dozen of these plates that are able to move around. In fact, they are in constant motion. The plates vary in thickness from 4-30 miles. These tectonic plates help regulate the earth's internal temperature. Recycles carbon. Mixes chemicals essential to chemical organisms, and shapes the continents.

Here's a picture that gives a better example of how these plates are set across the surface of our earth.

The different things about our planet is fascinating. But, that's not the whole picture. Our planet, plus the ones in our solar system. Work together to maintain each others orbit. Remember what I said on a previous page about our distance from the sun being exact? That just one degree difference would either burn our planet, or freeze it.... Every planet you see in the picture is pulled upon by another planet as they pass each other in space. Each planet is different in size and gravitational strength. The bigger planets would have the strongest gravitational pull. And all are pulled on by the sun.

So speed, distance, size, gravitational strength, orbit, other planets, the sun, the laws of how things work in space, a stable star, etc.... have to be factored in. Would anyone like to explain how a self correcting solar system, where all planets actually keep in check, each others orbit came to be with all the variables just mentioned? To allow the third planet from the sun to sustain life, and keep an orbit that helps maintain this.

But then, there is more to factor in as well. No two planets are alike in makeup. Which poses even more variables into this.

Let's ponder something for a minute. From looking at the picture above, let's say you are in school, and was given a class assignment using all the variables, know and unknown, to put together a self correcting solar system like what's in the picture. You could use all the planets shown, and everything known about them in your assignment. But, the sun was different in size and strength (Gravitational pull, and radiation). Your teacher says that this either has to be increased, or decreased by at least 5%. And one planet has to be able to sustain life.

1) How much further would each planet have to be to maintain orbit?

2) How much more speed does each planet have to go to maintain orbit?

3) How much further away does the one planet that sustains life have to go in order to not burn up, or freeze?

4) How would you keep the speed of orbit to where we could have our four seasons needed for plant life?

5) How would each planets moons be effected?

6) How would you adjust the earth's moon orbit so that it is not to close, or far away. So that it can still maintain the earth's degree tilt on it's axis, which allows the four seasons needed for plant life? Also, the moon controls our tides, which has to be factored in as well. And the adjustment has to keep the moon in sustained orbit for a billion years or more.

7) To keep each planets moons in orbit, you would need to adjust their distance, and speed as well as orbit path. Because some planets have several moons. And these moons also correct each other orbit just like the planets do.

8) The planet rings. How to keep them intact for billions of years on each planet that has them.

9) Solar wind. How to keep solar wind from a 5% stronger sun from stripping away any planet's atmosphere that currently has one. Including the one that has to sustain life.

10) And with all this to factor, the solar system still has to be self correcting.

Now for some of the factors on earth itself, that is needed to maintain life.

1) Factor in how all this is going to affect our weather? Really bad weather kills.

2) Factor in the extra pull upon our earth's crust, which translates into more volcanic eruptions and earthquakes.

3) Factor in the temp change world wide. Because temp is essential for life.

4) Will the earth have to spin faster, or slower? This will also affect the temp of the earth.

5) Will a stronger sun affect our magnetic field? Because our magnetic field protects us from the solar wind.

6) How much faster does the earth need to go around the sun? Will our years be longer or shorter?

etc.....

As you try and ponder all that is needed to even make a slight change, it becomes much more clear to understand how the earth, and all that is around it, was created, with all these factors set into place, so that everything works the way that it does. If not, then you should be able to make this model, with the different sun, work. Not even the smartest minds at NASA can do this.

For a theory, or a formula to work. It has to answer questions. Not make excuses. The only thing that I see that random chance and accident does is make an excuse for what science cannot answer. For if random chance and accident were something that showed us more truth, then we would be able to derive answers from it. For can anyone really explain random chance and accident? And because odds come into the picture, are odds even factored in anymore? For random chance and accident to work, odds cannot be a factor. It has to work everytime, the first time. And that in itself is also unexplainable. Because, according to science, there was only one Big Bang. Which means there was only one chance for the order and laws, to set in place, and form what you see, and where we currently live.

Could you make your model work as well as the one currently there? Or could it be that the only way it will work, is the one way it is currently set to do so? And what would be the odds of everything falling into the only way it can work?