On the principle of holographic scaling : from college physics to black hole thermodynamics / Leo Rodriguez and Shanshan Rodriguez.

By: Rodriguez, Leo [author.]Contributor(s): Rodriguez, Shanshan [author.] | Morgan & Claypool Publishers [publisher.] | Institute of Physics (Great Britain) [publisher.]Material type: TextTextSeries: IOP (Series)Release 6 | IOP concise physicsPublisher: San Rafael [California] (40 Oak Drive, San Rafael, CA, 94903, USA) : Morgan & Claypool Publishers, [2019]Distributor: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2019]Description: 1 online resource (various pagings) : illustrations (some color)Content type: text Media type: electronic Carrier type: online resourceISBN: 9781643274768 ebookSubject(s): General relativity (Physics) | Gravitation | Holography | Mathematical physics | Astrophysics | SCIENCE / Physics / AstrophysicsAdditional physical formats: Print version:: No titleDDC classification: 530.11 LOC classification: QC173.6 .R646 2019ebOnline resources: e-book Full-text access Also available in print.
Contents:
1. Introduction -- 1.1. The four forces and the geometric Universe -- 1.2. QFT + GR -- 1.3. Cosmological evolution -- 1.4. Black holes and holographic scaling
2. ADM mass and holographic scaling in general physics -- 2.1. Vector notation and coordinates -- 2.2. Vectorized area -- 2.3. Gaussian surfaces -- 2.4. Mass in college physics -- 2.5. The gravielectric duality -- 2.6. Mass in university physics
3. N�other's theorem : E&M and gravity -- 3.1. N�other's theorem : E&M -- 3.2. N�other's theorem : Newtonian gravity -- 3.3. N�other's theorem and gravity : the metric tensor
4. Tensor calculus on manifolds -- 4.1. Index notation -- 4.2. Some point set topology and manifolds -- 4.3. Vectors, tensors and fields -- 4.4. The Lie derivative -- 4.5. Exterior algebra -- 4.6. Exterior derivative -- 4.7. Orientation -- 4.8.
5. Lagrangian field theory -- 5.1. E&M -- 5.2. Energy momentum tensor -- 5.3. General relativity
6. Black hole thermodynamics and holographic scaling -- 6.1. Black holes -- 6.2. Killing vectors and horizons -- 6.3. Surface element for null generators -- 6.4. The laws of black hole mechanics -- 6.5. Black hole thermodynamics -- 6.6. 2D holog
Abstract: Holographic dualities are at the forefront of contemporary physics research, peering into the fundamental nature of our universe and providing best attempt answers to humankind's bold questions about basic physical phenomena. Yet, the concepts,
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IOP Science eBook - EBA QC173.6 .R646 2019eb (Browse shelf (Opens below)) Available IOP_20210145

"Version: 20190501"--Title page verso.

"A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso.

Includes bibliographical references.

1. Introduction -- 1.1. The four forces and the geometric Universe -- 1.2. QFT + GR -- 1.3. Cosmological evolution -- 1.4. Black holes and holographic scaling

2. ADM mass and holographic scaling in general physics -- 2.1. Vector notation and coordinates -- 2.2. Vectorized area -- 2.3. Gaussian surfaces -- 2.4. Mass in college physics -- 2.5. The gravielectric duality -- 2.6. Mass in university physics

3. N�other's theorem : E&M and gravity -- 3.1. N�other's theorem : E&M -- 3.2. N�other's theorem : Newtonian gravity -- 3.3. N�other's theorem and gravity : the metric tensor

4. Tensor calculus on manifolds -- 4.1. Index notation -- 4.2. Some point set topology and manifolds -- 4.3. Vectors, tensors and fields -- 4.4. The Lie derivative -- 4.5. Exterior algebra -- 4.6. Exterior derivative -- 4.7. Orientation -- 4.8.

5. Lagrangian field theory -- 5.1. E&M -- 5.2. Energy momentum tensor -- 5.3. General relativity

6. Black hole thermodynamics and holographic scaling -- 6.1. Black holes -- 6.2. Killing vectors and horizons -- 6.3. Surface element for null generators -- 6.4. The laws of black hole mechanics -- 6.5. Black hole thermodynamics -- 6.6. 2D holog

Holographic dualities are at the forefront of contemporary physics research, peering into the fundamental nature of our universe and providing best attempt answers to humankind's bold questions about basic physical phenomena. Yet, the concepts,

Undergraduate students.

Also available in print.

Mode of access: World Wide Web.

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Leo Rodriguez received his PhD in physics from the University of Iowa in 2011, after which he served as an HHMI postdoctoral research fellow at Grinnell College and held subsequent faculty positions at Grinnell College and Assumption College. Le

Title from PDF title page (viewed on June 5, 2019).