Carbon 14 dating background information
Nearly anyone can verify this for themselves using basic multiplication and division.
Radiocarbon Basics Carbon comes in three “varieties” or isotopes: C is 5,730 years.
Play a game that tests your ability to match the percentage of the dating element that remains to the age of the object.
Evolutionists have long used the carbon-14, or radiocarbon, dating technique as a “hammer” to bludgeon Bible-believing Christians.
Finally, although contamination can sometimes occur, it should not be assumed in a particular instance unless there are good reasons to believe that it has.
And a radiocarbon result that contradicts old-earth dogma is not a good enough reason by itself to invoke contamination!
But there is evidence that this decay occurred in accelerated “spurts,” Why the High Radiocarbon Age Estimates?
Virtually all fossils found within sedimentary rocks are the remains of creatures that perished during the Genesis Flood about 4,500 years ago.
Yet this assumption leads to a contradiction: If these organic samples really are many millions of years old, then they should be radiocarbon “dead.” But they aren’t! Evolutionists have attempted to blame these surprising results on a number of mechanisms. Furthermore, laboratories take great pains to keep contamination to a minimum, and researchers have found that, provided a sufficiently large testing sample is used (in the ballpark of 100 milligrams or so), the amount of such possible lab contamination is negligible compared to the C already present within the specimen.One can estimate this time by dividing 100 p MC by 2 repeatedly until the resulting number drops below 0.001 p MC.We find that about 18 such halvings are required for the p MC value to drop below 0.001 (Figures 1 and 2).Assumptions…Assumptions Instead of arbitrarily blaming these anomalous results on contamination, a far better (and more scientific) approach would be to question the correctness of the assumptions behind radioisotope dating methods.
One of these assumptions is that nuclear decay rates have always been constant.Although C decays fairly quickly, heavier isotopes (such as uranium-238) decay much more slowly.