Quantum Entanglement Explained
(eBook)

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Author
Introbooks
Published
IntroBooks, 2023.
Format
eBook
Status
Available Online

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Language
English
ISBN
9798223976523

Syndetics Unbound

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APA Citation, 7th Edition (style guide)

Introbooks., & Introbooks|AUTHOR. (2023). Quantum Entanglement Explained . IntroBooks.

Chicago / Turabian - Author Date Citation, 17th Edition (style guide)

Introbooks and Introbooks|AUTHOR. 2023. Quantum Entanglement Explained. IntroBooks.

Chicago / Turabian - Humanities (Notes and Bibliography) Citation, 17th Edition (style guide)

Introbooks and Introbooks|AUTHOR. Quantum Entanglement Explained IntroBooks, 2023.

MLA Citation, 9th Edition (style guide)

Introbooks, and Introbooks|AUTHOR. Quantum Entanglement Explained IntroBooks, 2023.

Note! Citations contain only title, author, edition, publisher, and year published. Citations should be used as a guideline and should be double checked for accuracy. Citation formats are based on standards as of August 2021.

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Grouped Work ID10e230e1-dbc6-6474-38b4-f3aa7c714225-eng
Full titlequantum entanglement explained
Authorintrobooks
Grouping Categorybook
Last Update2024-04-24 21:03:06PM
Last Indexed2024-05-04 02:25:10AM

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    [synopsis] => No matter how far away they are, particles of energy or matter can get entangled and interact predictably with one another. This phenomenon is known as entanglement in quantum theory. In physics, the concept of entanglement refers to how particles of matter or energy can join up and interact predictably with one another, regardless of their distance from one another. Because of this inexplicable connection that they nevertheless maintain, particles, including electrons and photons, can get entangled with one another in pairs. Correlation is the term for this procedure. Considering the spin state of an entangled particle enables one to infer that the spin of the particle's partner or pair is in the opposing direction. If one particle, for instance, is spinning up, its counterpart is spinning down. It becomes even stranger because, to human understanding of superposition phenomena, one can measure a particle that simultaneously has an uneven spin state (up and down) while having no single direction of spin before measurement.
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