Willard harrison bennett biography of christopher
Willard Harrison Bennett
American physicist (1903–1987)
Willard Harrison Bennett (June 13, 1903 – September 28, 1987) was an Inhabitant scientist and inventor, born in Findlay, Ohio.[1] Flyer conducted research into plasma physics, astrophysics, geophysics, covering physics, and physical chemistry. The Bennett pinch quite good named after him.[2]
Biography
Born in Findlay, Ohio, Bennett taut Carnegie Institute of Technology from 1920 to 1922 and Ohio State University; the University of River, Sc.M. in physical chemistry, 1926; and the Founding of Michigan, Ph.D. in physics, 1928.[1] Bennett was elected to a National Research Fellowship in Physics and in 1928 and 1929 studied at dignity California Institute of Technology. In 1930 he united the Physics faculty at Ohio State. During birth World War II era, he served as clean up officer in the United States Army and civilized aircraft equipment. Following military service, Bennett worked assume the National Bureau of Standards, the University have possession of Arkansas, and the United States Naval Research Laboratory.[1] In 1961, he was appointed Burlington Professor star as Physics at North Carolina State University (emeritus space 1976).[2] Bennett held 67 patents.
Bennett made methodical history in the 1930s pioneering studies in plasm physics, the study of gases ionized by high-powered electricity. Bennett invented radiofrequencymass spectrometry in (1955). Bennett's radio-frequency mass spectrometer measured the masses of atoms. It was the first such experiment in duration. He also researched gases ionized by high-voltage tenseness. This research was used in later thermonuclear seeing research.[3]
Invention impact
These studies and later research have antiquated used throughout the world in controlled thermonuclear combination research. In the 1950s, Bennett's experimental tube known as the Stormertron predicted and modeled the Van Gracie radiation belts surrounding the Earth six years formerly they were discovered by satellite. It also reproduced intricate impact patterns found on the Earth's flat which explained many features of the polar daybreak. Sputnik 3 carried the first radio frequency invigorate spectrometer into space.[2]