ACCRETION DISCS.

The physics of an accretion disc are fundamentally different than that of a solid body. Whereas the further one is from the axis of a solid body the faster one travels, with an accretion disc the opposite holds true, the nearer one is to the center the faster one travels. This would have an obvious effect, the center of an accretion disc may not at its creation experience the fastest time. This would lead to a sifting of the elements within the accretion discs, the lighter elements would be displaced by the heavier elements to areas of faster time. Eventually enough of the lighter elements will be forced into the center of the accretion disc to effect the gravity at the center of the lighter elements causing space time to warp and nuclear fusion to take place.

If we assume that an accretion disc is formed out of an amorphous cloud of different elements it would be fair to assume



that different points would be experiencing rates of time. At these points forces of attraction would start to take effect. If for arguments sake we assume that somewhere in the centre of this cloud some matter started to coalesce around a point of faster time then a number of things would start to take place.

As matter started to be drawn to this point of faster time a gravitational field would start to form. The matter around this embryo gravitational would start to rotate around the gravity well and begin to speed up.

As the matter started to speed up a potential would now exist with faster time being in the outer reaches of the cloud. This would lead to a sifting of the various elements within the accretion disc as the heavier elements would be drawn outward as if a centrifugal force was in operation.

Eventually the lighter elements would end up in the centre of the accretion disc and the heavier elements would occupy the outer regions. These heavier elements would eventually coalesce around other points of fast time to create planets and satellites. In the outer reaches of the star system where the lighter elements were too far out to be sucked into the star gas giants would form.

As the mass of the lighter elements reached a critical point under the force of gravity, nuclear fusion took place and a star was born.

In accretion discs where more than one area of faster time was present and there was enough hydrogen multiply stars would form.