Ancient and medieval science

Knowledge about nature in Classical Antiquity was pursued by many kinds of scholars. Greek contributions to science – including works of geometry and mathematical astronomy, early accounts of biological processes and catalogs of plants and animals, and theories of knowledge and learning – were produced by philosophers and physicians. These roles, and their associations with scientific knowledge, spread with the Roman Empire and, with the spread of Christianity, became closely linked to religious institutions in most of Europe. Astrology and astronomy became an important area of knowledge, and the role of astronomer / astrologer developed with political and religious support. By the time of the medieval university system, knowledge was divided into the trivium – philosophy, including natural philosophy – and the quadrivium – mathematics, including astronomy. Hence, the medieval analogs of scientists were often either philosophers or mathematicians. Knowledge of plants and animals was broadly the sphere of physicians.

Descartes was not only a pioneer of analytic geometry but formulated a theory of mechanics and advanced ideas about the origins of animal movement and perception. Vision interested the physicists Young and Helmholtz, who also studied optics, hearing and music. Newton extended Descartes' mathematics by inventing calculus (contemporaneously with Leibniz). He provided a comprehensive formulation of classical mechanics and investigated light and optics. Fourier founded a new branch of mathematics – infinite, periodic series – studied heat flow and infrared radiation, and discovered the greenhouse effect. Von Neumann, Turing, Khinchin, Markov and Wiener, all mathematicians, made major contributions to science and probability theory, including the ideas behind computers, and some of the foundations of statistical mechanics and quantum mechanics. Many mathematically inclined scientists, including Galileo, were also musicians.

Some see a little difference between experimental sciences and purely «observational» sciences such as astronomy, meteorology, oceanography and seismology. But astronomers have done basic research in optics, developed charge-coupled devices, and in recent decades have sent space probes to study other planets in addition to using the Hubble Telescope to probe the origins of the Universe some 14 billion years ago. Microwave spectroscopy has now identified dozens of organic molecules in interstellar space, requiring laboratory experimentation and computer simulation to confirm the observational data and starting a new branch of chemistry. Computer modeling and numerical methods are techniques required of students in every field of quantitative science.

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TYPES OF SCIENTISTS

Those considering science as a career often look to the frontiers. These include cosmology and biology, especially molecular biology and the human genome project. Other areas of active research include the exploration of matter at the scale of elementary particles as described by high-energy physics, and nanotechnology, which hopes to develop electronics including microscopic computers, and perhaps artificial intelligence. Although there have been remarkable discoveries with regard to brain function and neurotransmitters, the nature of the mind and human thought still remains unknown.

Industrial Scientist: Employment Info & Career Requirements

Industrial Scientists are an important part of commercial product and technological developments. They have a bachelor's and often a master's degree or Ph.D. in their chosen field. Related careers are academic research scientist, chemical engineer and environmental engineer.

Career Definition: Industrial Scientist

Industrial Scientists perform research and development work with a commercial focus in fields like agriculture, food science, environmental science, earth science, engineering and technology. Much of an Industrial Scientist's time is spent on stressful and challenging deadline-oriented projects. Industrial Scientists invent, develop and trouble-shoot new products and technologies. Industrial Scientists generally work collaboratively with other scientists and may work for a consulting firm, manufacturing company, biotech firm, non-governmental organization or government agency.

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