How Old Is The Earth?

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How Old is the Earth? Traditional Thought
How old is the Earth? Good question. The Earth was thought to be fairly young (thousands of years old) until the 19th and 20th centuries, when uniformitarianism (which assumes an Old Earth) and evolutionary thought (which demands an Old Earth) became popular in mainstream society.

How Old is the Earth? Recent Consideration
So, how old is the Earth? In the 19th century, it was proposed that the Earth may be as much as 70 million years old. Then, certain evidence was brought to light indicating that evolution was not possible in so short a time. So, the age of the Earth was pushed back. During the 20th century, it was thought that the age of the Earth was as much as 1 billion years old. Now, with the development of radiometric dating and the application of that technique on the meteorite "Allende", it is thought that the world is up to 4.6 billion years old. However, this is not conclusive. The assumptions that are fundamental to radiometric dating are extremely controversial, and are not held to be reasonable by many leading scholars. Furthermore, uniformitarianism has been disputed by such geologic features as poly-strata fossils and the lack of erosion between strata. Moreover, evolution is a theory in crisis with the discovery of DNA and its complex language convention, plus the absence of fossils.

How Old is the Earth? Modern Evidences
By the 21st century, "How Old is the Earth?" has become an increasingly difficult question for Old Earth advocates. Every year, more and more Natural Chronometers indicating a Young Earth are being identified. While the majority of scientists still presuppose an Old Earth, 80% of the observable data indicates a Young Earth. With the weight of evidence indicating a Young Earth, the ranks of Young Earth advocate groups has swelled.

How Old is the Earth? Natural Chronometers
"How old is the Earth?" This question is once again sparking a heated debate. With discoveries such as the following Natural Chronometers, we are at the forefront of a Young Earth revolution:

  • Our oceans contain concentrations of Aluminum, Antinomy, Barium, Bicarbonate, Bismuth, Calcium, Carbonates, Chlorine, Chromium, Cobalt, Copper, Gold, Iron, Lead, Lithium, Manganese, Magnesium, Mercury, Molybdenum, Nickel, Potassium, Rubidium, Silicon, Silver, Sodium, Strontium, Sulfate, Thorium, Tin, Titanium, Tungsten, Uranium, and Zinc. The river systems add to these concentrations at fixed apparent rates. Comparing the amounts already in the oceans with the rates at which more are being dumped, indicates the earth, as well as its river systems and oceans, are fairly young.
  • Sediments are being eroded into our oceans at a fixed rate. There are only a few thousand years worth of sediments on the ocean floor.
  • The Earth's magnetic field has been accurately measured since 1829. Since 1829, it has decayed 7%. It is decaying exponentially at a fixed rate. By graphing the curve, we see that approximately 22,000 years ago the Earth's field would have been as strong as the Sun's. Life would have been impossible.
  • Comets are constantly losing matter. They are losing and losing and never gaining. "Short Period Comets" (like Haley's comet), which have predictable orbits, should deteriorate to nothing within 10,000 years. Why are there still Short Period Comets?
  • Jupiter is losing heat twice as fast as it gains it from the Sun (it is five times further from the Sun than Earth). Yet Jupiter is still hot. If it is billions of years old, shouldn't it have cooled off by now?
  • Jupiter's moon, Ganymede, which is roughly the size of Mercury, has a strong magnetic field, a possible indication that it is still hot. Why hasn't it cooled down?
  • Saturn's rings are not stable. They are drifting away from Saturn. If Saturn is billions of years old, why does it still have rings?
  • The Moon is slowly drifting away from the Earth. If it is getting further, at one time it was much closer. The Inverse Square Law dictates that if the Moon were half the distance from the Earth, its gravitational pull on our tides would be quadrupled. 1/3 the distance, 9 times the pull. Everything would drown twice a day. Approximately 1.2 billion years ago, the Moon would have been touching the Earth. Drowning would be the least of our concerns!
  • Earth's rotation is slowing down. We experience a leap second every year and a half. If the Earth is slowing down, at one time it was going much faster. Besides the problem of extremely short days and nights, the increased "Coriolis Effect" would cause impossible living conditions.
  • In 1999, the human population passed six billion. In 1985, it passed five billion. In 1962, it passed three billion. In 1800, it passed one billion. In 1 AD, the world's population, according to the censuses taken by the governments of that time, was only 250 million. At the current human population growth rate, considering wars and famines and all such variables, it would take approximately 5,000 years to get the current population from two original people.

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