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(JB)Ĭomputer Simulations - Simulation is a big one, but even that is an evolution of modeling. The arrival of inexpensive small computers with good interactivity and graphics enabled the study of chaos and complexity to proceed experimentally, by simulation. Before the PC, computers were big and expensive and directed at block busting problems.
#Jb budget build liftoff simulator Pc#
(DH) The development of the PC should be distinguished from computers in general.
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has become an integral part of science because of this. This may not seem like a “new” development, but statistical analysis, simulation, etc. Personal Computers - I’d say that putting personal computers on the desktop of every scientist has had a bigger influence on science than the first computer simulation in 1946. Here are what some thinkers believe are the major innovations in the process of science in the last 50 years. (JB) John Barrow, (GB) Gordon Bell, (GtB) Gerrit Breoekstra, (RD) Richard Dawkins, (NE) Niles Eldredge, (TE) Terry Erwin, (FD) Freeman Dyson, (GD) George Dyson, (JG) Jim Gray, (DH) David Hillis, (NH) Nick Humphrey, (SK) Stuart Kaufman, (CL) Chris Langton, (SP) Steven Pinker, (LS) Lee Smolin, (BS) Bruce Sterling. Those who responded include the following: I asked this question to some prominent scientists and science observers in astrophysics, biology, evolutionary theory, computer science, psychology, and science fiction. What would you say are the innovations in the scientific method of the last 50 years? What has changed the nature of science in practice in your lifetime? I am primarily interested in innovations in the process of science itself, rather than the discoveries made by that process.