Moon Metal

Whats gravity and why moon is going away from earth?

Gravity is the property of every object according to newton.But what actually causes gravity in a body.molecular motion?Molten rocks and metals?…..And is it true that moon is going a few inches away from earth every year,if yes then how?

Einstein used the ‘principle of equivalence’ between a gravitational force and acceleration – as his ‘yard stick’ – for his deliberations. Einstein finally found the Theory of General Relativity in 1915.

This geometric theory of gravity is a cause and effect theory. The theory describes the fabric of space-time as a medium that may be distorted by the presence of mass and energy. In an earlier theory (The Special Theory of Relativity (1905)), Einstein had related mass and energy in the famous equation: -

E = mc²

From this concept, he described the curvature or distortion of space-time as due to the total sum of mass-energy present within the region of distorted space. It is the curvature of space-time we call gravity. Thus, our planet follows the ‘straightest’ path or path of least action whilst it orbits the mutually curved space around the Sun. An object falling to earth, under the pull of gravity, is following the curvature of space in the region around the surface of the Earth. Einstein described the relationship between space-time curvature and the mass-energy causing it, in the tensor field equation: -

G = 8πT

Where ‘G’ is the Einstein tensor representing the ‘gravity’ or curvature of space-time and ‘T’ is the total energy tensor representing the mass-energy creating the gravitational curvature of the space-time.

The Moon and the Earth orbit in a barycentric system with the centre of the mutual orbit about 1,700 km beneath the surface of the Earth. Wikipedia comments, that ‘… Earth’s ocean tides are initiated by the tidal force (a gradient in intensity) of Moon’s gravity and are magnified by a host of effects in Earth’s oceans. The gravitational tidal force arises because the side of Earth facing the Moon (nearest it) is attracted more strongly by the Moon’s gravity than is the center of the Earth and—even less so—the Earth’s far side. The gravitational tide stretches the Earth’s oceans into an ellipse with the Earth in the center. The effect takes the form of two bulges—elevated sea level relative to the Earth; one nearest the Moon and one farthest from it. Since these two bulges rotate around the Earth once a day as it spins on its axis, ocean water is continuously rushing towards the ever-moving bulges. The effects of the two bulges and the massive ocean currents chasing them are magnified by an interplay of other effects; namely frictional coupling of water to Earth’s rotation through the ocean floors, inertia of water’s movement, ocean basins that get shallower near land, and oscillations between different ocean basins. The magnifying effect is a bit like water sloshing high up the sloped end of a bathtub after a relatively small disturbance of one’s body in the deep part of the tub.

Gravitational coupling between the Moon and the ocean bulge nearest the Moon affects its orbit. The Earth rotates on its axis in the very same direction, and roughly 27 times faster, than the Moon orbits the Earth. Thus, frictional coupling between the sea floors and ocean waters, as well as water’s inertia, drags the peak of the near-Moon tidal bulge slightly forward of the imaginary line connecting the centers of the Earth and Moon. From the Moon’s perspective, the center of mass of the near-Moon tidal bulge is perpetually slightly ahead of the point about which it is orbiting. Precisely the opposite effect occurs with the bulge farthest from the Moon; it lags behind the imaginary line. However it is 12,756 km farther away and has slightly less gravitational coupling to the Moon. Consequently, the Moon is constantly being gravitationally attracted forward in its orbit about the Earth. This gravitational coupling drains kinetic energy and angular momentum from the Earth’s rotation. In turn, angular momentum is added to the Moon’s orbit, which lifts the Moon into a higher orbit with a longer period. The effect on the Moon’s orbital radius is a small one, just 0.10 ppb/year, but results in a measurable 3.82 cm annual increase in the Earth-Moon distance. Cumulatively, this effect becomes ever more significant over time; since astronauts first landed on the Moon approximately 40 years ago, it is 1.51 metres farther away. …’.

Dark Moor – The Moon Power Metal