Willkillforfood said:
Just gonna provide a counter point to the planets thing ....planets can actually have their rotations reversed, sped up, or whatever by giant collisions with heavenly bodies .
|
thats right!
Many undisputed observations contradict current theories on how the solar system evolved.
One theory says planets formed when a star, passing near our Sun, tore matter from the Sun. More popular theories hold that the solar system formed from a cloud of swirling gas, dust, or larger particles. If the planets and their 156 known moons evolved from the same material, they should have many similarities. After several decades of planetary exploration, this expectation is now recognized as false.
According to these evolutionary theories:
Backward-Spinning Planets. All planets should spin in the same direction, but Venus, Uranus, and Pluto rotate backwards.
Backward Orbits. All 156 moons in the solar system should orbit their planets in the same sense, but more than 30 have backward orbits. Furthermore, Jupiter, Saturn, Uranus, and Neptune have moons orbiting in both directions.
Tipped Orbits. The orbit of each of these 156 moons should lie in the equatorial plane of the planet it orbits, but many, including the Earths moon, are in highly inclined orbits.
Angular Momentum. The Sun should have about 700 times more angular momentum than all the planets combined. Instead, the planets have 50 times more angular momentum than the Sun.
Contrary to popular opinion, planets should not form from just the mutual gravitational attraction of particles orbiting the Sun.a Orbiting particles are much more likely to be scattered or expelled by their gravitational attraction than they are to be permanently pulled together. Experiments have shown that colliding particles almost always fragment rather than stick together.b (Similar difficulties exist in trying to form a moon from particles orbiting a planet.)
Despite these problems, let us assume that pebble-size to moon-size particles somehow evolved. Growing a planet by many small collisions will produce an almost nonspinning planet, because spins imparted by impacts will be largely self-canceling.
The growth of a large, gaseous planet (such as Jupiter, Saturn, Uranus, or Neptune) far from the central star is especially difficult for evolutionists to explain for several reasons.
a. Gases dissipate rapidly in the vacuum of outer space, especially the lightest two gaseshydrogen and helium, which comprise most of the mass of the giant planets.
b. Because gas molecules orbiting a star do not gravitationally pull in (or merge with) other gas molecules in the orbiting ring, a rocky planet, about ten times larger than Earth, must first form to attract all the gas gravitationally. This must happen very quickly, before the gas dissipates.e (Jupiters hydrogen and helium is 300 times more massive than the entire Earth.)
c. Stars like our Suneven those which evolutionists say are youngdo not have enough orbiting hydrogen or helium to form one Jupiter.
Computer simulations show that Uranus and Neptune could not evolve anywhere near their present locations. The planets that are found outside our solar system also contradict the theories for how planets supposedly evolve.
Based on demonstrable science, gaseous planets and the rest of the solar system did not evolve.
Planetary rings have long been associated with claims that planets evolved. Supposedly, after planets formed from a swirling dust cloud, rings remained, as seen around the giant planets: Saturn, Uranus, Jupiter, and Neptune. Therefore, some believe that because we see rings, planets must have evolved.
Actually, rings have nothing to do with a planets origin. Rings form when material is expelled from a moon by a volcano, a geyser, or the impact of a comet or meteorite. Debris that escapes a moon because of its weak gravity and a giant planets gigantic gravity then orbits that planet as a ring. If these rings were not periodically replenished, they would be dispersed in less than 10,000 years. Because a planets gravity pulls escaped particles away from its moons, particles orbiting a planet could never form moonsas evolutionists assert.
http://www.creationscience.com/onlin...Sciences8.html