Word: atomizers
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Smiting the wicked became a habit. During World War II, he wrote a letter warning Japanese Emperor Hirohito: "Surrender or be totally annihilated and become extinct." Three months later the atom bomb fell on Hiroshima. As Father Divine put it: "Things just don't happen. Things happen just...
...carved into the countryside-the sensation that Nature is being suffocated beneath spans of concrete. "In many parts of the country the building of a highway has about the same results upon vegetation and human structures as the passage of a tornado or the blast of an atom bomb," protests Critic Lewis Mumford, one of the foremost save-our-trees esthetes. In San Francisco, Folk Singer Malvina Reynolds became so angry with the California Highway Department that she wrote a song...
...neutrino is the most elusive and mysterious of the some 30 known particles of energy scattered by the splitting of the atom. For more than two decades the neutrino was known only in theory. It has no electric charge or mass of its own. It travels at the speed of light, can penetrate matter equal to 100 million miles of lead without being stopped. Billions of neutrinos bombard each square centimeter of the earth's surface every second; but every one of them eluded scientists until 1956. Then physicists detected the first neutrinos in the debris from man-made...
...atom contains only one proton and one electron, which makes it the lightest element known to science. It is completely colorless, completely odorless. And it is that ultimate simplicity that has earned for hydrogen some of the most sophisticated jobs in modern science. Refrigerated into a liquid state, hydrogen is helping physicists to peer into the heart of the atom, to trace the fleeting histories of the smallest building blocks of matter. Space scientists are depending on it to launch the Apollo spacecraft that will take the first U.S. astronauts to the moon...
...temperatures), which has been instrumental in developments ranging from exotic new metals to important new discoveries in superconductivity. Liquid hydrogen came into its own when it was put to use in bubble chambers for experiments in high-energy physics. In such studies, accelerators smash the nucleus of a hydrogen atom, scattering subnuclear debris through the bubble chamber, where scientists can follow and photograph the paths of the tiny charged particles by their tracks of small bubbles. This technique, which was to have been used at Cambridge, has led to the discovery and identification of many new particles...