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Nem triviális kvantumjelenségek a percepciós és kategorizációs folyamatokban. A szignifikációs kölcsönhatás

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Levente Szabó at Budapest University of Technology and Economics
Levente Szabó
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  • Jan 1984
  • Niels Bohr
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  • Jan 2004
  • 236-265
  • Jerome S Bruner
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  • Jan 1999
  • 23-29
  • Carnap Rudolf
Carnap Rudolf (1999) Ellenőrizhetőség és jelentés. In: Forrai-Szegedi 1999, 23-29.
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  • Jan 2007
  • Ernst Cassirer
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  • Jan 1994
  • 313-348
  • René Descartes
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  • Jan 2003
  • Albert Einstein
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  • Jan 1983
  • 208-244
  • Richard Feynmann
  • Ph
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  • Jan 1999
  • Fonyó Attila
Fonyó Attila (1999) Az orvosi élettan tankönyve. Budapest, Medicina.
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  • Jan 2013
  • Cox -Jeff Forshaw
Forshaw, Cox -Jeff, Brian (2013) A kvantum világegyetem. Budapest, Akkord.
A pszichológia alapkérdései
  • Jan 1994
  • Donald O Hebb
Hebb, Donald O. (1994) A pszichológia alapkérdései. Budapest, Gondolat-Trivium.
Válogatott tanulmányok
  • Jan 1967
  • Werner Heisenberg
Heisenberg, Werner (1967) Válogatott tanulmányok. Budapest, Gondolat.
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  • Jan 2004
  • 137-156
  • Louis Hjelmslev
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  • Jan 1999
  • 57-85
  • Horányi Özséb
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  • Jan 1999
  • 283-322
  • Laki János
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  • Jan 1997
  • Roger - Penrose
  • Shimony
  • Nancy - Abner -Cartwright
  • Stephen Hawking
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  • Jan 1998
  • John R Searle
Searle, John R. (1998) Mind, Language and Society. Philosophy in the Real World, Basic. Magyarul: Elme, nyelv és társadalom. A való világ filozófiája. Budapest, Vince, 2000.
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  • Jan 2011
  • Simonyi Károly
Simonyi Károly (2011) A fizika kultúrtörténete, Budapest, Gondolat.
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  • Jan 2017
  • 43-57
  • Szabó Levente
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  • Jan 2002
  • Szentágothai János -Réthelyi Miklós
Szentágothai János -Réthelyi Miklós (2002) Funkcionális anatómia. Budapest, Medicina.
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  • Jan 2011
  • Veszprémi Tamás -Fehér Miklós
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A tudományos gondolkodás fogalmi alapjai. Bevezetés a tudományfilozófiába
  • Jan 1977
  • Marx W Wartofsky
Wartofsky, Marx W. (1977) A tudományos gondolkodás fogalmi alapjai. Bevezetés a tudományfilozófiába. Budapest, Gondolat.
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  • Jan 1979
  • 80-98
  • Louis De Broglie
de Broglie, Louis (1979) Individualitás és kölcsönhatás a fizikai világban. In: Ágoston 1979, 80-98.
  • Jan 1999
  • Forrai Gábor -Szegedi Péter
Forrai Gábor -Szegedi Péter (szerk.) (1999) Tudományfilozófia. Szöveggyűjtemény. Budapest, Áron Kiadó. http://www.tankonyvtar.hu/hu/tartalom/tamop425/2011_0001_537_Tudomanyfilozofia/ adatok.html
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  • Jan 2014
  • Forrai Gábor
Forrai Gábor (2014) Kortárs nézetek a tudásról. Budapest, L'Harmattan.
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  • Jan 2012
  • John Gribbin
Gribbin, John (2012) Schrödinger macskája. Kvantumfizika és valóság. Budapest, Akkord.
Korunk fizikájának világképe
  • Jan 1979
  • 5-26
  • Werner Heisenberg
Heisenberg, Werner (1979) Korunk fizikájának világképe. In: Ágoston 1979, 5-26.
  • Jan 1990
  • Robert - Sekuler
  • Randolph Blake
Sekuler, Robert -Blake, Randolph (1990) Perception. McGraw, Cornell University. Magyarul: Sekuler, Robert -Blake, Randolph Észlelés. Budapest, Osiris, 2000.