太阳系物理与化学 能源科学 j. s. lewis
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作者j. s. lewis
出版社北京大学出版社
ISBN9787301245170
出版时间2014-08
版次1
装帧平装
开本16
页数652页
字数800千字
定价113元
货号xhwx_1200975275
上书时间2024-10-22
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目录:
foreword
i introduction
nature and scope of ary science 1
guide to the literature 3
numbers in science 4
dimensions and units 5
exercises 6
ii astronomical perspective
introduction 7
distance scales in the universe 7
the big bang 10
limitations on big bang nucleosynthesis 14
galaxy and star formation 15
structure and classification of galaes 16
classification of stars 18
stellar evolution 25
star clusters 27
stellar origins 29
outline of star formation 33
stellar explosions and nucleosynthesis 34
nuclear cosmochronology 43
exercises 47
iii general description of the solar system
introduction 50
the sun 50
orbits of the s 52
changes in orbital motion 57
properties of the s 58
mass and angular momentum distribution 59
satellites 63
asteroids 69
ets 71
meteors 72
meteorites 72
cosmic dust 73
cosmic rays 73
ary science in the space age 74
summary 76
exercises 76
iv the sun and the solar nebula
introduction 77
energy production in the sun 77
energy transport in the sun 79
internal structure of the sun 83
surface of the sun 84
the chromosphere 87
the corona 88
discovery of the solar wind 90
radio wave propagation in space smas 91
the solar wind 92
chemistry of solar material 96
ionization 97
dissociation and molecule formation 100
hydrogen and the rare gases 101
oxygen, carbon, and nitrogen 102
magnesium and silicon 105
iron 106
sulfur 107
aluminum and calcium 108
sodium and potassium 109
nickel and cobalt 110
phosphorus and the halogens 111
geochemical classification of the elements 111
the chemistry of rapid accretion 116
kiic inhibition 117
mass and density of the solar nebula 118
thermal opacity in the solar nebula 121
dust opacity 129
thermal structure of the nebula 131
turbulence and dust sedimentation 134
accretion of rocks, esimals, and s 136
gas capture from the solar nebula 138
the t tauri phase 141
thermal history of the early solar system 143
exercises 144
v the major s
introduction 147
interiors of jupiter and saturn: data 148
isothermal interior models of jupiter and saturn 151
thermal models of jupiter and saturn 154
the atmospheres of jupiter and saturn: observed ition 156
tropheric ition and structure: theory 159
cloud condensation in the nh3–h2o–h2s system 165
cloud physics on the jovian s 174
galileo perspectives on jovian clouds 179
ion production in the jovian atmosphere 180
visible and infrared radiative transfer 183
horizontal structure and atmospheric circulation 187
photochemistry and aeronomy 200
the jovian thermosphere 217
radiophysics and magospheres of jupiter and saturn 218
the interiors of uranus and neptune 229
atmospheres of uranus and neptune 238
perspectives 247
exercises 247
vi pluto and the icy satellites of the outer s
introduction 252
surfaces of icy satellites 253
eclie radiometry 256
surface temperatures 257
surface morphology of the galilean satellites 258
density and ition of icy satellites 265
internal thermal structure of galilean satellites 267
dynamical interactions of the galilean satellites 272
thermal and tectonic evolution of icy satellites 275
minor satellites of jupiter 278
ary rings 280
titan 289
the intermediate—sized saturnian satellites 293
minor satellites of saturn 296
satellites of uranus 299
satellites of neptune 303
the pluto–charon system 308
the neptune–pluto resonance 311
spacecraft exploration 311
exercises 312
vii ets and meteors
historical perspectives 317
nature and nomenclature of ets 319
etary orbits 321
heating by passing stars 325
evaporation and nongravitational forces 326
the nucleus and a of p/halley 328
chemistry and photochemistry of water 328
further chemical processes in the a and tail 332
behavior of small particles 333
dynamical behavior of dust in space 334
meteors 336
etary fireballs 343
etary impacts on jupiter 344
exercises 347
viii meteorites and asteroids
introduction 350
introduction to meteorites 350
meteorite orbits 353
phenomena of fall 355
physical properties of meteorites 358
meteorite minerals 362
taxonomy and ition of chondrites 362
metamorphic grades of chondrites 367
taxonomy and ition of achondrites 369
taxonomy and ition of stony—irons 371
taxonomy and ition of irons 372
isotopic ition of meteorites 375
geic relationshi between meteorite classes 382
introduction to asteroids 384
asteroid orbits 386
stability of trojan and plutino orbits 389
sizes, shapes, and albedos of asteroids 391
masses and densities of asteroids 393
photometry and spectroscopy of asteroids 394
thermal evolution of asteroids 401
dynamical evolution of the asteroid belt 406
centaurs and trans—neptunian objects 409
relationshi among asteroids, meteorites, and ets 412
radar observations of near—earth asteroids 415
asteroid resources 416
exercises 419
ix the airless rocky bodies: io, phobos, deimos, the moon, and mercury
introduction 424
orbits and physical structure of phobos and deimos 426
io: general properties 430
io: surface processes 430
io: internal energy sources 432
io: geology 433
io: atmospheric and volcanic gases 435
io: escape and the sma torus 437
io: geic relationshi 438
impact cratering 438
motions of the moon 443
physical properties of the moon 445
elemental ition of the moon’s surface 445
lunar rock types 447
lunar minerals 449
lunar elemental abundance patterns 451
geology of the moon 451
geophysics of the moon 452
history of the earth–moon system 456
origin and internal evolution of the moon 458
solar wind interaction with the moon and mercury 460
the mercury 461
motions of mercury 461
ition and structure of mercury 462
noncrater geology of mercury 463
geophysics of mercury 463
atmospheres of mercury and the moon 468
polar deits on mercury and the moon 469
unfinished business&n
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