Cycel said:
First, examine any stream. Though water moves in one direction, eddies themselves can rotate in any direction.
well one your steam comment is kinda off theirs friction in the flow of water that causes those and no friction in space
What you are saying is, "For one, your stream comment is off the mark. There is friction in the flow of water that causes those eddies, but in space there is no friction."
More specifically eddies are formed in flowing water when obstacles are encountered, and here the analogy holds. As an example, I will ask you what happens to a gas cloud that encounters the sun? Some molecules and other particles will become trapped by the sun's gravity and will be drawn from the cloud. Those parts of the cloud that pass by the sun on one side, and which are moving too fast to be caught, will have their course altered. Molecules and particles passing by the sun from the opposite side will have their course altered in the opposite direction. The cloud, which is bound by its own gravity and moving as a whole, will be split, or have a hole punched in the middle of it, and parts of it may well be sent rotating off in different directions.
As for the notion that there is no friction in space, this is wrong. There is friction in a cloud, no matter how diffuse the cloud is. Larger objects, like asteroids or spacecraft, will have their course impeded or altered as they encounter the molecules and particles in their path. You may have heard of this referred to as drag, and NASA flight specialists take this into consideration when they place satellites in orbit. The space around earth is not empty. There is a diffuse soup of particles and molecules surrounding the earth which, for example, create drag on the International Space Station requiring that its orbit be periodically boosted.
wanderer said:
second just look at Venus and Uranus because they rotate in a opposite direction than the other planets and yes they all revolve in the same direction but not rotate.
Venus is rotating in the opposite direction of the other planes, but Uranus is not. You got that fact wrong. Uranus is tipped on its side.
Perhaps you might like to explain why you think the direction of Venus’s spin creates a problem for the nebular hypothesis? Would you call your own understanding of the solar system’s origin the Genesis hypothesis? Perhaps you could explain what it says of the direction of Venus’ rotation? Also, how does the Genesis hypothesis account for Uranus being tipped on its side? I will mention that the nebula hypothesis explains both. Waiting for your explanation.