The Roscoe Braham Papers contain material documenting Braham's career, including correspondence (some handwritten), office files, research notes, grant proposals and reports, notes and related documentation from meetings and conferences, class notes, and personal records from 1863 to 2011 with some undated material. Also included are ...
MoreThe Roscoe Braham Papers contain material documenting Braham's career, including correspondence (some handwritten), office files, research notes, grant proposals and reports, notes and related documentation from meetings and conferences, class notes, and personal records from 1863 to 2011 with some undated material. Also included are black and white photographs and negatives, newspaper articles, pamphlets, bound reports on research projects, glass slides, slides, film reels, annual American Meteorological Society (AMS) Council Meeting correspondence from the 1940s to 2000 and beyond, and articles and reference material dating back to 1863. The records provide insight into Braham's research on cloud precipitation physics, his engagement with other scientists, scholars, and institutions, like the University of Chicago and North Carolina State University, and his involvement with professional organizations. Roscoe R. Braham Jr. is a pioneering meteorologist, educator, expert in cloud precipitation physics, and visiting professor at North Carolina State University. He earned a bachelor's degree in geology in 1942 from the Ohio University. Braham completed his master's and doctoral degrees at the University of Chicago, joined the University of Chicago staff in 1952 as a research meteorologist and retired in 1991 after thirty-seven years, twenty-six of them as a full professor. Braham has published more than eighty scientific reports, books, and monographs during his academic career. Braham joined the American Meteorological Society in 1945 and served as its president in 1988. He is credited for the discovery of the cell organization of thunderstorms as well as the coalescence-freezing mechanism of precipitation formation in natural clouds.
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