000			02173nam a2200277Ia 4500
003			OSt
005			20250730163017.0
008			220909b |||||||| |||| 00| 0 eng d
020			_a9781907568046
040			_aCSL _beng _cCSL
041			_aeng
084			_aD65,8(B)94mt0bG Q1 TC _qCSL
100			_aBurstein, Leonid _eauthor. _9816991
245		0	_aMatlab in Bioscience and Biotechnology
260			_aNew York : _bBiohealth Care, _c2011.
300			_axviii, 230p.
490			_aSeries on pharma, biotech and biosciences
500			_aIncludes Index 223-230p.
520			_aMATLAB® in bioscience and biotechnology presents an introductory Matlab course oriented towards various collaborative areas of biotechnology and bioscience. It concentrates on Matlab fundamentals and gives examples of its application to a wide range of current bioengineering problems in computational biology, molecular biology, bio-kinetics, biomedicine, bioinformatics, and biotechnology. In the last decade Matlab has been presented to students as the first computer program they learn. Consequently, many non-programmer students, engineers and scientists have come to regard it as user-friendly and highly convenient in solving their specific problems. Numerous books are available on programming in Matlab for engineers in general, irrespective of their specialization, or for those specializing in some specific area, but none have been designed especially for such a wide, interdisciplinary, and topical area as bioengineering. Thus, in this book, Matlab is presented with examples and applications to various school-level and advanced bioengineering problems - from growing populations of microorganisms and population dynamics, reaction kinetics and reagent concentrations, predator-prey models, mass-transfer and flow problems, to sequence analysis and sequence statistics.
650			_aBioscience. _9816992
650			_aBiotechnology.
650			_aComputer Science.
650			_aPhysics.
942			_hD65,8(B)94mt0bG Q1 TC _cTEXL _2CC _n0
999			_c13679 _d13679