Discover the Most Mind Blowing Theories That Govern the Universe and the World Around Us
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Köp båda 2 för 517 krLoew Timo Kaufmann is an Austrian astrophysicist, planetary scientist, author, and science communicator. Kaufmann's research focuses on observations in cosmology, stellar evolution, galactic astronomy, bulge, and star formation.
He has held numerous positions at institutions at several universities and remained at Reading to pursue a Ph.D. in fetal physiology, with a research project aimed at working out the neural mechanisms that make mammals breathe once they are born.
His postdoctoral phase involved work at Bayer University and University College Salzburg. Since 1990 he has written for many newspapers and magazines. In 2000 he founded a training organization dedicated to helping people reduce the time they spend writing clear and successful papers by informing their approach to structure. These workshops were initially delivered to the academic sector; many participants came from a wide range of backgrounds, including business.
Kaufmann likes to share the fruits of his research in his books and hopes the reader will get some benefit from them.
newton's light corpuscles 15
young's double-slit experiment 17
the famous maxwell equations 22
electromagnetic spectra 26
a nod to thermodynamics 28
fundamental principles and laws 31
the huygens-fresnel principle 33
the law of attraction and quantum physics 41
photoelectric effect: 52
einstein's theory 52
features of photoelectric emission 53
the role of photons in photoelectric emission 57
bound systems and binding energy 59
evolution of elementary particles 64
the laws of energy and momentum are conserved at the moment of exit. 66
postulates 70
evolution of the hydrogen atom 72
quantum computing 75
is information physical? 75
what is a computer? 77
how do computers work? 79
how small can a single logic gate be? 81
can we create computers that use fundamentally quantum behavior? 83
what is a qubit? 86
what physical principles differentiate classical and quantum computers apart? 88
test realization of quantum computer 89
heteropolymers: 89
ion traps: 90
quantum electrodynamics cavity: 90
nuclear magnetic resonance: 91
quantum dots 91
josephson junctions 93
the kane computer 93
topological quantum computer 94
five modern application of quantum physics 96
5 of the most exciting ones: 98
quantum physics as seen in everyday objects 103
toasters 104
modern physics 108
matter and anti-matter 109
medical imaging 115
ct scanning principles 115
is basic research worthwhile? 120
conclusion 123