“Everyone knows Newton as the great scientist. Few remember that he spent half his life muddling with alchemy, looking for the philosopher’s stone. That was the pebble by the seashore he really wanted to find”*…
Alchemist Heating a Pot, by David Teniers the Younger (1610 – 1690
Alchemy is one of the most curious subjects in the history of science–it evokes both method and magic in popular imagination. Teniers brilliantly juxtaposes light and shadow in his paintings, leaving the viewer unsure just how illuminating alchemy really is.
Alchemy was practiced in Europe as early as the 1300s and, by the seventeenth century, it had reached in zenith. It was a precursor to modern chemistry, and the methods and instruments that are historically tied to alchemy had a significant impact on the development of scientific tools. (As a historical note, in the seventeenth century, alchemy and chemistry were extremely fluid scientific practices; many contemporary historians of science opt to refer to the science as chymistry to connote the mutability of the two practices.)
At its very core, alchemy focused on the notion of transmutation–the ability of one element to morph into another, especially the ability to turn elements into gold. (If Rumpelstiltskin had only been so lucky!) In order to understand elements on their most basic level—in order to extrapolate how to transmute one into another—alchemy focused its experimental efforts on the processes of distillation, sublimation, and crystallization and how they affected different materials. Exploring these processes, however, required sophisticated tools and technologies as well as scientific means and methods…
Lydia Pine takes us “Inside the Alchemist’s Workshop.”
* Fritz Leiber
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As we go for the gold, we might send elemental birthday greetings to Glenn Theodore Seaborg; he was born on this date in 1912. A chemist, his discovery and investigation of plutonium and nine other transuranium elements was part of the effort during World War II to develop an atomic bomb; it earned him a share of the 1951 Nobel Prize in Chemistry.
Seaborg went on to serve as Chancellor of the University of California, as Chair of the Atomic Energy Commission, and as an advisor to 10 presidents– from Harry S. Truman to Bill Clinton– on nuclear policy and science education. Element 106 (the last of the ten that Seaborg discovered), was named seaborgium in his honor.
Like so many of the scientists who worked on the Manhattan Project, Seaborg became a campaigner for arms control. He was a signatory to the Franck Report and contributed to the Limited Test Ban Treaty, the Nuclear Non-Proliferation Treaty and the Comprehensive Test Ban Treaty.
