Das Buch ist derzeit nicht auf Lager

The Equivalence of Elementary Particle Theories and Computer Languages: Quantum Computers, Turing Machines, Standard Model, Superstring Theory, and a

Autor*innen

Stephen Blaha

Buchbewertung

Abgeben

Parameter

164 Seiten
6 Lesestunden

Mehr zum Buch

The book explores the relationship between elementary particle theories, like the Standard Model and Superstring theories, and programming languages such as Assembly, C, and C++. It presents a groundbreaking argument that the universe is inherently quantum, supported by Gödel's theorem, which highlights the limitations of deterministic theories in physics. This innovative perspective challenges traditional views and suggests that certain mathematical truths remain unprovable, reshaping the understanding of fundamental physics.

Buchkauf

The Equivalence of Elementary Particle Theories and Computer Languages: Quantum Computers, Turing Machines, Standard Model, Superstring Theory, and a, Stephen Blaha

Sprache
Erscheinungsdatum: 2005
product-detail.submit-box.info.binding: (Paperback)

Wir benachrichtigen dich per E-Mail.

Lieferung

Gratis Versand ab 16,99 € in ganz Österreich! Mehr Infos.

Zahlungsmethoden

4,3

Sehr gut

4 Bewertung

Abgeben

Hier könnte deine Bewertung stehen.

Ausgabe-DetailsFeedback senden

Titel: The Equivalence of Elementary Particle Theories and Computer Languages: Quantum Computers, Turing Machines, Standard Model, Superstring Theory, and a
Sprache: Englisch
Autor*innen: Stephen Blaha
Verlag: It Mearke Publishing
Erscheinungsdatum: 2005
Einband: Paperback
Seitenzahl: 164
ISBN13: 9780974695822
Reihe
Schlagwörter: Sachbücher, Technologie & Industrie, Wissenschaft & Mathematik, Naturwissenschaften, Computer & Internet, Mathematik, Physik
Bewertung: 4,25 von 5 Sternen
Beschreibung: The book explores the relationship between elementary particle theories, like the Standard Model and Superstring theories, and programming languages such as Assembly, C, and C++. It presents a groundbreaking argument that the universe is inherently quantum, supported by Gödel's theorem, which highlights the limitations of deterministic theories in physics. This innovative perspective challenges traditional views and suggests that certain mathematical truths remain unprovable, reshaping the understanding of fundamental physics.