To find the years that have elapsed from how much Carbon 14 remains, type in the C-14 percent and click on Calculate.

Many thanks to Geophysical Institute, University of Alaska Fairbanks for permission to use the following extract All carbon is not created equal. The same element can have different isotopes or atomic numbers---in effect, the weights of their nuclei differ. Carbon has three isotopes, known as carbon 12, carbon 13, and carbon 14, often called simply C-12, C-13, and C-14. The carbon in the carbon dioxide we breathe, for example, is about 99 percent C-12. The remaining one percent is virtually all C-13. That's fine, because the two isotopes are the same element. The very rare carbon 14 is another matter, though, because it is radioactive. By losing an electron, every atom of C-14 eventually will decay into an atom of N-14; that is, it will turn into ordinary nitrogen. As radioactive substances go, C-14 doesn't last long. Half of any number of atoms of carbon 14 will have become nitrogen 14 after 5730 years have passed. That's simply another way of saying that C-14 has a half-life of 5730 years. Since the earth is more than four billion years old, all C-14 would have decayed into nitrogen long ago if new C-14 atoms weren't being produced. Cosmic radiation zaps enough atoms of ordinary carbon into the radioactive form to keep the planetary supply of carbon 14 at near 60 metric tons. That sounds enormous, but it's puny next to the worldwide total of all forms of carbon in the atmosphere, biosphere, and fresh and salt waters, which stands at about 40 trillion metric tons (that's 40 followed by twelve more zeros). Growing plants make withdrawals from that limited supply of radioactive carbon. They must assimilate carbon from the atmosphere's carbon dioxide, and they take in atoms of C-14 right along with atoms of stable carbon isotopes. The carbon gets built into the plants, and then into any animal that eats the plants. Right---that means every living thing is slightly, but measurably, radioactive. However, the radioactive material is being built into the organism only while it lives. Dead plants and animals don't breathe or build up their mass. From the moment of death on, all their C-14 is on a one-way trip toward becoming nitrogen. Knowing how much radioactive carbon a mammoth tooth would have contained when its owner lived, a researcher with the right equipment can measure how much it now has and then calculate how long ago the mammoth died. Charcoal from a hunter's campfire offers a similar kind of radiocarbon clock. Thus, carbon dating---more precisely, radiocarbon dating---lets us measure temporal distances into the past. From an article by Carla Helfferich .. Alaska Science Forum

There is much more information about Carbon Dating on the web. The best place to start is
Radiocarbon WEB-info

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