Introduction to Mathematics for Life ScientistsFrom the reviews: "...Here we have a book which we can wholeheartedly suggest. The mathematics is sound and pared to essentials; the examples are an impressive, well-chosen selection from the biomathematics literature, and the problem sets provide both useful exercises and some fine introductions to the art of modeling... Batschelet has written an introduction to biomathematics which is notable for its clarity - not only a clarity of presentation, but also a clarity of purpose, backed by a sure grasp of the field..." #Bulletin of Mathematical Biology#1 "For research workers in the biomedical field who feel a need for freshening up their knowledge in mathematics, but so far have always been frustrated by either too formal or too boring textbooks, there is now exactly what they would like to have: an easy to read introduction. This book is highly motivating for practical workers because only those mathematical techniques are offered for which there is an application in the life sciences. The reader will find it stimulating that each tool described is immediately exemplified by problems from latest publications." #Int. Zeitschrift für klinische Pharmakologie, Therapie und Toxikologie#2 |
Contents
I | 1 |
II | 4 |
III | 6 |
IV | 7 |
V | 10 |
VI | 13 |
VII | 14 |
VIII | 15 |
LXXII | 251 |
LXXIII | 253 |
LXXIV | 259 |
LXXV | 265 |
LXXVI | 272 |
LXXVII | 281 |
LXXVIII | 286 |
LXXIX | 289 |
IX | 17 |
X | 20 |
XI | 22 |
XII | 24 |
XIII | 25 |
XIV | 26 |
XV | 36 |
XVI | 37 |
XVII | 40 |
XIX | 41 |
XX | 42 |
XXI | 45 |
XXII | 48 |
XXIII | 50 |
XXIV | 55 |
XXV | 59 |
XXVI | 62 |
XXVII | 65 |
XXVIII | 70 |
XXIX | 74 |
XXX | 78 |
XXXI | 82 |
XXXII | 90 |
XXXIII | 91 |
XXXIV | 97 |
XXXV | 99 |
XXXVI | 101 |
XXXVII | 104 |
XXXVIII | 106 |
XXXIX | 110 |
XL | 111 |
XLI | 114 |
XLII | 115 |
XLIII | 119 |
XLIV | 123 |
XLV | 129 |
XLVI | 130 |
XLVII | 132 |
XLVIII | 139 |
XLIX | 143 |
L | 146 |
LI | 148 |
LII | 152 |
LIII | 155 |
LIV | 157 |
LV | 162 |
LVI | 165 |
LVII | 170 |
LVIII | 173 |
LIX | 176 |
LX | 179 |
LXI | 183 |
LXII | 188 |
LXIII | 195 |
LXIV | 202 |
LXV | 209 |
LXVI | 212 |
LXVII | 217 |
LXVIII | 224 |
LXIX | 228 |
LXX | 234 |
LXXI | 242 |
LXXX | 291 |
LXXXI | 301 |
LXXXII | 302 |
LXXXIII | 306 |
LXXXIV | 308 |
LXXXV | 310 |
LXXXVI | 311 |
LXXXVII | 313 |
LXXXVIII | 314 |
LXXXIX | 320 |
XC | 324 |
XCI | 327 |
XCII | 334 |
XCIII | 335 |
XCIV | 336 |
XCV | 346 |
XCVI | 352 |
XCVII | 359 |
XCVIII | 361 |
XCIX | 369 |
C | 373 |
CI | 375 |
CII | 381 |
CIII | 384 |
CIV | 387 |
CV | 392 |
CVI | 398 |
CVII | 400 |
CIX | 400 |
CX | 400 |
CXI | 400 |
CXII | 400 |
CXIII | 400 |
CXIV | 400 |
CXV | 400 |
CXVI | 407 |
CXVII | 414 |
CXVIII | 420 |
CXIX | 431 |
CXX | 443 |
CXXII | 445 |
CXXIII | 453 |
CXXIV | 463 |
CXXV | 470 |
CXXVI | 479 |
CXXVII | 486 |
CXXVIII | 489 |
CXXIX | 495 |
CXXX | 499 |
CXXXI | 515 |
CXXXIII | 516 |
CXXXIV | 519 |
CXXXV | 522 |
CXXXVI | 527 |
CXXXVII | 528 |
CXXXVIII | 537 |
CXXXIX | 540 |
CXL | 555 |
CXLI | 578 |
CXLII | 591 |
Other editions - View all
Grid Enabled Remote Instrumentation Franco Davoli,Norbert Meyer,Roberto Pugliese,Sandro Zappatore No preview available - 2008 |
Common terms and phrases
a₁ a₂ alleles angle antiderivative antigen applied arithmetic mean assume axes axis b₁ binomial distribution blood Calculate called cell common logarithm commutative law complex numbers consider constant curve decrease defined denote differential equation distribution domain event Example exponential function factor Find formula genotype geometric geometric sequence given graph growth rate Hence increase instance integral interval inverse function logarithmic mathematical matrix mean measured molecules monotone multiplication negative nomogram notation obtain outcome space P₁ plot Poisson distribution polar polar coordinates population positive power function probability problem proportional quadratic quadratic function radians random rate of change real numbers result scale Section sequence shown in Fig slope solution solve species specific growth rate straight line subset symbol t₁ tends to infinity tends to zero triangle variable vector velocity x₁ y₁