In an unusual intersection of materials science and anthropology, researchers from the National Institute of Standards and Technology (NIST) and The George Washington University (GWU) have applied materials-science-based mathematical models to help shed light on the dietary habits of some of mankind’s prehistoric relatives. Their work forms part of a newly published, multidisciplinary analysis* of the early hominid Australopithecus africanus by anthropologists at the State University of New York at Albany and elsewhere. In the new study, Albany researcher David Strait and his colleagues** applied finite element analysis-an engineer’s modeling tool that employs an intricate geometric mesh to calculate the stresses and strains at play in complex shapes-to the teeth and jaws of A. africanus, an African hominid that lived 2 to 3 million years ago. Their goal was to determine just how, and with how much force, the animal chomped and chewed its food. Such analyses are of great importance to anthropologists. Teeth are the hardest parts of the body, and so are the parts most likely to be found after millions of years. Careful examination of subtle features of teeth and jaws can reveal what an animal could eat, which implies what it did eat, which implies […]

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