The Geocentric model is very old and very well established. Older, in fact, than the heliocentric model.
The heliocentric model simply fails to provide explanations for why:
(a) we have the exact same starfield visible in the night sky every night. If the earth moved around the sun once per year, the stars in that starfield would change position on a nightly basis, this doesn't happen.
(b) the perfect correlation between the sizes of the moon and sun as seen from earth. This is the only set of bodies in the KNOWN UNIVERSE where a perfect eclipse is visible.
(c) the Moon's tidal force upon the earth is far stronger than the sun's. According the The Atheist Newton's gravitational equation and the mass/distance figures mandated by the heliocentric worldview, F = GmM / r^2, the Sun's gravitational pull upon the Earth is more than 100 times larger than the Moon's, yet the Moon exerts a far greater tidal force than the sun upon the earth. Clearly either the equations underpinning heliocentrism OR the values they ascribe to the heavenly bodies are WRONG!
Fairly sure this is trolling. But I can never resist stomping on bad science.
A: We do not, in fact, have the exact same view of the sky every night. This is why telescopes must constantly be re-adjusted in order to view the same section of space. This is also why not every constellation is always visible--as the earth revolves around the sun, some stars move out of our field of view.
B: The relative sizes of the sun and moon are not perfect. While nearly there, it's not quite. There is also the effect known as Baily's Beads -- during an eclipse, light shines through certain portions of the moon due to craters and other topographical features of the moon. For the eclipse to ever be truly perfect, the moon would have to be perfectly spherical, which is it not. Lastly, the eclipse is only possible due to the current orbiting distance of the moon. In years long past, the moon was much closer to the earth and would have blocked the sun entirely. In the future, as the moon moves further away from the earth, it will be too small to create a perfect eclipse.
C: Tidal forces are a
differential force. They are caused when the gravity of one body exerted on another is not equal across its entire diameter. While the moon's gravity is obviously weaker than the sun's (otherwise we would be orbiting the moon, not the moon orbiting us while we orbit the sun), the moon still does exert its influence on the earth. The sun's gravity being stronger does not just make the moon's gravity disappear.