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Peer reviewedBak, Per – Physics Today, 1983
Describes how microcomputers can perform very demanding/large-scale physics calculations at speeds not much slower than those of modern, full-size computers. Among the examples provided are a Monte Carlo simulation of the three-dimensional Ising model and a program (for the Apple microcomputer) using the time-independent Schrodinger Equation. (JN)
Descriptors: College Science, Computer Programs, Computer Simulation, Higher Education
Peer reviewedGuell, Oscar A.; Holcombe, James A. – Analytical Chemistry, 1990
Described are analytical applications of the theory of random processes, in particular solutions obtained by using statistical procedures known as Monte Carlo techniques. Supercomputer simulations, sampling, integration, ensemble, annealing, and explicit simulation are discussed. (CW)
Descriptors: Chemical Analysis, Chemistry, College Science, Computer Simulation
