![]() As a result, the elements it contained couldn’t be identified. But the problem with Hudson’s white powder was that it didn’t vaporize in a standard fifteen-second carbon-arc burn. Normally, such a burn will vaporize everything, including all of the metals within the sample. This arc literally vaporizes the ore sample within fifteen seconds, and the vaporized elements can then be assayed by spectroscopic analysis. When a strong electric current is passed between the electrodes, an electric arc is produced with a temperature of approximately 5,000 degrees Celsius. It involves placing two large carbon electrodes in close proximity to each other, between which a small sample of the ore is placed. It involved a ninety-second carbon-arc fire assay.Ī carbon-arc assay is often used to identify elements in a sample of ore. The methodology was taken from Russian metallurgical scientists, who had been faced with similar problems. After several years of research, costing several million dollars, a method was eventually found to assay it. To get to the bottom of the mystery, Hudson hired the best metallurgical chemist he could find in the Southwest to do research on the material and identify it. It didn’t match any of the known chemical elements. But none of the standard assay techniques could tell what the material was. He reasoned that since he could hold the powder in his hand, it must be something. ![]() The assay results showed that it was nothing. Mystified as to what this powder might be and why he was not recovering the metals, he sent it out for assay. When Hudson attempted to recover the metals using standard wet chemistry methods, he obtained a white flocculent material resembling dissolved tissue paper, which, when dried, assumed the form of a fine white powder. The deposits were in the form of micro-clusters, small atomic aggregates of the metals, which are notoriously difficult to recover. Since he already had the earth-moving equipment, Hudson decided that he would attempt to recover some of the precious metals and store them in a safety deposit box as a hedge against inflation and taxes.īut he encountered some serious recovery problems. According to his story, which has become somewhat of a folk legend on the Internet, Hudson discovered that his property, consisting of several thousand acres in southern Arizona, contained deposits of gold and the platinum-group elements. In 1989 a series of patents were filed by a wealthy American farmer named David Hudson, who claimed to have discovered a new form of matter. Using his own alchemical research, Cox then reveals secrets that have been kept hidden for millennia uncovered in his own modern-day quest to rediscover this long-sought elixir of life. In The Elixir of Immortality, Robert Cox reviews the alchemical lore of these traditions and the procedures each used to produce this fabulous elixir. The mysterious material-spiritual science of alchemy was once pervasive throughout the ancient world, spanning the globe from China and India to Egypt and medieval Europe. This substance, Robert Cox shows, bears eerie resemblance to the ultimate quest of the alchemists: the elixir of immortality. Further research showed that this powder, which had also been discovered to possess marvelous healing powers, contained monatomic forms of precious metals whose electron units had been altered to no longer display the physical, chemical, or electrical properties of the original elements. After several years of testing, this substance was revealed to consist of gold and platinum-but in a form unknown to modern science. In 1989, while attempting to extract precious minerals from his property, a wealthy Arizonan obtained a mysterious white material that initially defied scientific attempts to identify it. Reveals the alchemical secrets for creating this elixir in clear scientific language.Provides an overview of alchemical practices in the ancient world-from Europe to China. ![]() A modern-day quest that echoes the ancient alchemists’ work to discover the elixir of life
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