Difference between revisions of "Read"

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[[File:Read.jpg|thumb|A graphic showing the list's dependencies. Click to enlarge.]]
[[File:Read.jpg|thumb|A graphic showing the list's dependencies. Click to enlarge.]]


This list of books provides the most direct and rigorous route to understanding differential geometry, the mathematical language of physics. Each selection thoroughly addresses its subject matter. The list does not need to be read linearly or only one book at a time. It is encouraged to go between books and/or read several together to acquire the necessary language and understand the motivations for each idea.  
This list of books provides the most direct and rigorous route to understanding differential geometry, the mathematical language of physics. Each selection thoroughly addresses its subject matter.  


See the image on the right for a visual treatment of its dependencies.
The list does not need to be read linearly or only one book at a time. It is encouraged to go between books and/or read several together to acquire the necessary language and understand the motivations for each idea. The greatest hurdles are the motivation to learn and developing an understanding of the language of mathematics.


Also see this [[Watch|list of videos]].
See the image on the right for a visual representation of its dependencies.
 
Also see this [[Watch|list of video lectures]].
 
 
A further set of texts extending this one, but working with the same basics has been produced leading all the way up and through gauge field theory, quantum mechanics, algebraic geometry, and quantum field theory [http://sheafification.com/the-fast-track/ here].


== List Structure ==
== List Structure ==


The '''Royal Road to Differential Geometry and Physics''' is the list's core. While on that track, you should refer to the "Fill in Gaps" and "Backbone" sections as needed or as you desire.
The '''Royal Road to Differential Geometry and Physics''' is the list's core. While on that track, you should refer to the '''Fill in Gaps''' and '''Backbone''' sections as needed or as you desire.


The '''Fill in Gaps''' section covers the knowledge acquired in a strong high school mathematics education. Refer to it as needed, or begin there to develop your core skills.
The '''Fill in Gaps''' section covers the knowledge acquired in a strong high school mathematics education. Refer to it as needed, or begin there to develop your core skills.


The '''Backbone''' section supports the ideas in the '''Royal Road'''. Refer to it to strengthen your understanding of the ideas in the main track and to take those ideas further.
The '''Backbone''' section supports the ideas in the '''Royal Road'''. Refer to it to strengthen your understanding of the ideas in the main track and to take those ideas further.
The greatest hurdles are motivation and coming to understand the language of mathematics.


== Fill in Gaps ==
== Fill in Gaps ==
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| link = Calculus (Book)
| link = Calculus (Book)
| title = === Calculus ===
| title = === Calculus ===
| desc = Overview of Calculus by Tom Apostol.
| desc = Overview of single and multi-variable calculus with applications to differential equations and probability by Tom Apostol.
}}
}}
</div>
</div>
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| title = === Sets for Mathematics ===
| title = === Sets for Mathematics ===
| desc = Categorical approach to set theory by F. William Lawvere.<br>
| desc = Categorical approach to set theory by F. William Lawvere.<br>
Backbone reference:
'''Backbone reference:'''
* [[{{FULLPAGENAME}}#Set Theory and Metric Spaces|Set Theory and Metric Spaces]]
* [[{{FULLPAGENAME}}#Set Theory and Metric Spaces|Set Theory and Metric Spaces]]
* [[{{FULLPAGENAME}}#Foundations of Analysis|Foundations of Analysis]]
* [[{{FULLPAGENAME}}#Foundations of Analysis|Foundations of Analysis]]
Line 47: Line 50:
| link = Linear Algebra (Book)
| link = Linear Algebra (Book)
| title = === Linear Algebra ===
| title = === Linear Algebra ===
| desc = Overview of linear algebra by Georgi Shilov.
| desc = Linear algebra of linear equations, maps, tensors, and geometry by Georgi Shilov.
}}
}}
{{BookListing
{{BookListing
Line 53: Line 56:
| link = Mechanics (Book)
| link = Mechanics (Book)
| title = === Mechanics ===
| title = === Mechanics ===
| desc = Classical mechanics of physics by Lev Landau.<br>
| desc = Classical mechanics of particles by Lev Landau.<br>
Prerequisite:
'''Prerequisite:'''
* [[{{FULLPAGENAME}}#Calculus|Calculus]]
* [[{{FULLPAGENAME}}#Calculus|Calculus]]
Backbone reference:
'''Backbone reference:'''
* [[{{FULLPAGENAME}}#Ordinary Differential Equations|Ordinary Differential Equations]]
* [[{{FULLPAGENAME}}#Ordinary Differential Equations|Ordinary Differential Equations]]
}}
}}
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| link = The Classical Theory of Fields (Book)
| link = The Classical Theory of Fields (Book)
| title = === The Classical Theory of Fields ===
| title = === The Classical Theory of Fields ===
| desc = Physics by Lev Landau.<br>
| desc = Classical field theory of electromagnetism and general relativity by Lev Landau.<br>
Prerequisite:
'''Prerequisite:'''
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
}}
}}
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| title = === Tensor Analysis on Manifolds ===
| title = === Tensor Analysis on Manifolds ===
| desc = Tensor analysis by Richard Bishop and Samuel Goldberg.<br>
| desc = Tensor analysis by Richard Bishop and Samuel Goldberg.<br>
Prerequisite:
'''Prerequisite:'''
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
Backbone reference:
'''Backbone reference:'''
* [[{{FULLPAGENAME}}#Principles of Mathematical Analysis|Principles of Mathematical Analysis]]
* [[{{FULLPAGENAME}}#Principles of Mathematical Analysis|Principles of Mathematical Analysis]]
* [[{{FULLPAGENAME}}#Topology: A Categorical Approach|Topology: A Categorical Approach]]
* [[{{FULLPAGENAME}}#Topology: A Categorical Approach|Topology: A Categorical Approach]]
Line 83: Line 86:
| title = === Lectures on Differential Geometry ===
| title = === Lectures on Differential Geometry ===
| desc = Differential geometry by Shlomo Sternberg.<br>
| desc = Differential geometry by Shlomo Sternberg.<br>
Prerequisite:
'''Prerequisite:'''
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
* [[{{FULLPAGENAME}}#Linear Algebra|Linear Algebra]]
Backbone reference:
'''Backbone reference:'''
* [[{{FULLPAGENAME}}#Principles of Mathematical Analysis|Principles of Mathematical Analysis]]
* [[{{FULLPAGENAME}}#Principles of Mathematical Analysis|Principles of Mathematical Analysis]]
* [[{{FULLPAGENAME}}#Topology: A Categorical Approach|Topology: A Categorical Approach]]
* [[{{FULLPAGENAME}}#Topology: A Categorical Approach|Topology: A Categorical Approach]]
Line 93: Line 96:
| link = Cohomology & Differential Forms (Book)
| link = Cohomology & Differential Forms (Book)
| title = === Cohomology & Differential Forms ===
| title = === Cohomology & Differential Forms ===
| desc = Cohomology and differential forms by Isu Vaisman.<br>
| desc = Cohomology and differential forms by Isu Vaisman. Sheaf theoretic description of the cohomology of real, complex, and foliated manifolds.<br>
Backbone reference:
'''Backbone reference:'''
* [[{{FULLPAGENAME}}#Algebra: Chapter 0|Algebra: Chapter 0]]
* [[{{FULLPAGENAME}}#Algebra: Chapter 0|Algebra: Chapter 0]]
* [[{{FULLPAGENAME}}#Algebra|Algebra]]
* [[{{FULLPAGENAME}}#Algebra|Algebra]]
}}
}}
</div>
</div>
== Backbone ==
== Backbone ==
<div class="flex-container">
<div class="flex-container">
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| link = Topology: A Categorical Approach (Book)
| link = Topology: A Categorical Approach (Book)
| title = === Topology: A Categorical Approach ===
| title = === Topology: A Categorical Approach ===
| desc = Topology by Tai-Danae Bradley, Tyler Bryson, Josn Terrilla.
| desc = Topology by Tai-Danae Bradley, Tyler Bryson, Josn Terrilla. [https://topology.mitpress.mit.edu/ Click here for the Open Access version.]
}}
}}
{{BookListing
{{BookListing
Line 156: Line 160:
}}
}}
</div>
</div>
[[Category:Bot Commands]]
__NOTOC__
__NOTOC__

Latest revision as of 04:03, 15 February 2023

A graphic showing the list's dependencies. Click to enlarge.

This list of books provides the most direct and rigorous route to understanding differential geometry, the mathematical language of physics. Each selection thoroughly addresses its subject matter.

The list does not need to be read linearly or only one book at a time. It is encouraged to go between books and/or read several together to acquire the necessary language and understand the motivations for each idea. The greatest hurdles are the motivation to learn and developing an understanding of the language of mathematics.

See the image on the right for a visual representation of its dependencies.

Also see this list of video lectures.


A further set of texts extending this one, but working with the same basics has been produced leading all the way up and through gauge field theory, quantum mechanics, algebraic geometry, and quantum field theory here.

List Structure

The Royal Road to Differential Geometry and Physics is the list's core. While on that track, you should refer to the Fill in Gaps and Backbone sections as needed or as you desire.

The Fill in Gaps section covers the knowledge acquired in a strong high school mathematics education. Refer to it as needed, or begin there to develop your core skills.

The Backbone section supports the ideas in the Royal Road. Refer to it to strengthen your understanding of the ideas in the main track and to take those ideas further.

Fill in Gaps

Lang Basic Mathematics Cover.jpg

Basic Mathematics

Review of arithmetic, algebra, trigonometry, logic, and geometry by Serge Lang.

Apostol Calculus V1 Cover.jpg

Calculus

Overview of single and multi-variable calculus with applications to differential equations and probability by Tom Apostol.

Royal Road to Differential Geometry and Physics

Lawvere Sets for Mathematics Cover.jpg

Sets for Mathematics

Categorical approach to set theory by F. William Lawvere.
Backbone reference:

Shilov Linear Algebra Cover.jpg

Linear Algebra

Linear algebra of linear equations, maps, tensors, and geometry by Georgi Shilov.

Landau Course in Theoretical Physics V1 Cover.jpg

Mechanics

Classical mechanics of particles by Lev Landau.
Prerequisite:

Backbone reference:

Landau Course in Theoretical Physics V2 Cover.jpg

The Classical Theory of Fields

Classical field theory of electromagnetism and general relativity by Lev Landau.
Prerequisite:

Bishop Tensor Analysis Cover.jpg

Tensor Analysis on Manifolds

Tensor analysis by Richard Bishop and Samuel Goldberg.
Prerequisite:

Backbone reference:

Sternberg Differential Geometry Cover.jpg

Lectures on Differential Geometry

Differential geometry by Shlomo Sternberg.
Prerequisite:

Backbone reference:

Vaisman Cohomology and Differential Forms Cover.jpg

Cohomology & Differential Forms

Cohomology and differential forms by Isu Vaisman. Sheaf theoretic description of the cohomology of real, complex, and foliated manifolds.
Backbone reference:

Backbone

Kaplansky Set Theory and Metric Spaces Cover.jpg

Set Theory and Metric Spaces

Set theory and metric spaces by Irving Kaplansky.

E Landau Foundations of Analysis Cover.jpg

Foundations of Analysis

Analysis, intro to numbers, by Edmund Landau.

Rudin Principles of Mathematical Analysis Cover.jpg

Principles of Mathematical Analysis

Mathematical analysis by Walter Rudin.

Arnold Ordinary Differential Equations Cover.jpg

Ordinary Differential Equations

Ordinary differential equations by Vladimir Arnold.

Bradley Bryson Terrilla Topology A Categorical Appoach Cover.jpg

Topology: A Categorical Approach

Topology by Tai-Danae Bradley, Tyler Bryson, Josn Terrilla. Click here for the Open Access version.

Ahlfors Complex Analysis Cover.jpg

Complex Analysis

Complex analysis by Lars Ahlfors.

Olver Applications of Lie Groups to Differential Equations Cover.jpg

Applications of Lie Groups to Differential Equations

Applications of Lie Groups to Differential Equations by Peter Olver.

Aluffi Algebra Chapter 0 Cover.jpg

Algebra Chapter 0

Algebra by Paolo Aluffi. Easier than Lang's, but less direct.

Lang Algebra Cover.jpg

Algebra

Algebra by Serge Lang. The most direct approach to the subject.