Our Radiant Sun is Condensed and Cold

摘要

Some years ago I proved that the Sun behaves as one large hydrogen atom. This gives us a new unique explanation of the nature of the Sun because it means – according to Bose-Einstein’s condensation theory - that the Sun must be at the highest degree of condensation and coldness. Because we proved also that the radius of the Sun is proportional to that of hydrogen atom, therefore the radii of hydrogen atoms in the Sun’s core must be at their shortest value forming the recently discovered small neutron star in that core , while at the outermost layer of the Sun called corona like that at the outermost level of energy in hydrogen atom (beyond fifth level) every electron here and there is free from the attraction of the proton, and the daylight on the Earth takes place when the free energetic electrons of solar corona interact with the gaseous atmosphere of the Earth causing its atoms to glow when the Earth faces the Sun through its motion around its axis, and because the coronal electrons near the Sun have less free energies due to strong solar attraction measuring to those at farther distance from the Sun therefore we can understand why the Earth on its orbit is hottest when it is farthest from the Sun not when it is closes.