[h=1]Diamonds: a creationist’s best friend[/h] [h=2]Radiocarbon in diamonds: enemy of billions of years[/h] by Jonathan Sarfati
[h=2]Carbon[/h] What do hard sparkling diamonds and dull soft pencil ‘lead’ have in common? They are both forms (allotropes) of carbon. Most carbon atoms are 12 times heavier than hydrogen (12C), about one in 100 is 13 times heavier (13C), and one in a trillion (1012) is 14 times heavier (14C). Of these different types (isotopes) of carbon, 14C is called radiocarbon, because it is radioactive—it breaks down over time.
[h=2]Radiocarbon dating[/h] Photo by Mauricio Nascimento
Some try to measure age by how much 14C has decayed. Many people think that radiocarbon dating proves billions of years.1 But evolutionists know it can’t, because 14C decays too fast. Its half-life (t[SUB]½[/SUB]) is only 5,730 years—that is, every 5,730 years, half of it decays away. After two half lives, a quarter is left; after three half lives, only an eighth; after 10 half lives, less than a thousandth is left.2 In fact, a lump of 14C as massive as the earth would have all decayed in less than a million years.3
So if samples were really over a million years old, there would be no radiocarbon left. But this is not what we find, even with very sensitive 14C detectors.4
[h=2]Diamonds[/h] Diamond is the hardest substance known, so its interior should be very resistant to contamination. Diamond requires very high pressure to form—pressure found naturally on earth only deep below the surface. Thus they probably formed at a depth of 100–200 km. Geologists believe that the ones we find must have been transported supersonically5 to the surface, in extremely violent eruptions through volcanic pipes. Some are found in these pipes, such as kimberlites, while other diamonds were liberated by <nobr>water erosion</nobr> and deposited elsewhere (called alluvial diamonds). According to evolutionists, the diamonds formed about 1–3 billion years ago.5 The presence of radiocarbon in these diamonds where there should be none is thus sparkling evidence for a ‘young’ world, as the <nobr>Bible</nobr> records.
[h=2]Dating diamonds[/h] Geophysicist Dr John Baumgardner, part of the RATE research group,6 investigated 14C in a number of diamonds.7 There should be no 14C at all if they really were over a billion years old, yet the radiocarbon lab reported that there was over 10 times the detection limit. Thus they had a radiocarbon ‘age’ far less than a million years! Dr Baumgardner repeated this with six more alluvial diamonds from Namibia, and these had even more radiocarbon.
The presence of radiocarbon in these diamonds where there should be none is thus sparkling evidence for a ‘young’ world, as the Bible records.
[h=2]Carbon[/h] What do hard sparkling diamonds and dull soft pencil ‘lead’ have in common? They are both forms (allotropes) of carbon. Most carbon atoms are 12 times heavier than hydrogen (12C), about one in 100 is 13 times heavier (13C), and one in a trillion (1012) is 14 times heavier (14C). Of these different types (isotopes) of carbon, 14C is called radiocarbon, because it is radioactive—it breaks down over time.
[h=2]Radiocarbon dating[/h] Photo by Mauricio Nascimento
Some try to measure age by how much 14C has decayed. Many people think that radiocarbon dating proves billions of years.1 But evolutionists know it can’t, because 14C decays too fast. Its half-life (t[SUB]½[/SUB]) is only 5,730 years—that is, every 5,730 years, half of it decays away. After two half lives, a quarter is left; after three half lives, only an eighth; after 10 half lives, less than a thousandth is left.2 In fact, a lump of 14C as massive as the earth would have all decayed in less than a million years.3
So if samples were really over a million years old, there would be no radiocarbon left. But this is not what we find, even with very sensitive 14C detectors.4
[h=2]Diamonds[/h] Diamond is the hardest substance known, so its interior should be very resistant to contamination. Diamond requires very high pressure to form—pressure found naturally on earth only deep below the surface. Thus they probably formed at a depth of 100–200 km. Geologists believe that the ones we find must have been transported supersonically5 to the surface, in extremely violent eruptions through volcanic pipes. Some are found in these pipes, such as kimberlites, while other diamonds were liberated by <nobr>water erosion</nobr> and deposited elsewhere (called alluvial diamonds). According to evolutionists, the diamonds formed about 1–3 billion years ago.5 The presence of radiocarbon in these diamonds where there should be none is thus sparkling evidence for a ‘young’ world, as the <nobr>Bible</nobr> records.
[h=2]Dating diamonds[/h] Geophysicist Dr John Baumgardner, part of the RATE research group,6 investigated 14C in a number of diamonds.7 There should be no 14C at all if they really were over a billion years old, yet the radiocarbon lab reported that there was over 10 times the detection limit. Thus they had a radiocarbon ‘age’ far less than a million years! Dr Baumgardner repeated this with six more alluvial diamonds from Namibia, and these had even more radiocarbon.
The presence of radiocarbon in these diamonds where there should be none is thus sparkling evidence for a ‘young’ world, as the Bible records.
