Overview
Comment: | Update README.md: Markdown and minor formatting. |
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User & Date: | jeff@gridfinity.com on 2021-03-01 04:00:10 |
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Context
2021-03-01
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04:24:32 | Add .gitattributes: GitHub Linguist overrides. check-in: 8aa40ef57b user: jeff@gridfinity.com tags: origin/master, trunk | |
04:00:10 | Update README.md: Markdown and minor formatting. check-in: b90a1818e8 user: jeff@gridfinity.com tags: origin/master, trunk | |
03:57:54 | Update README.md: Provide links to documentation. check-in: 30a527fada user: jeff@gridfinity.com tags: origin/master, trunk | |
Changes
Modified README.md from [a09eb72e87] to [10f18bcc98].
1 2 3 4 5 6 7 8 9 10 | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 | - + | # **GRG** ## Computer Algebra System for Differential Geometry, Gravitation and Field Theory The computer algebra system **GRG** is designed to make calculation in differential geometry and field theory as simple and natural as possible. **GRG** is based on the computer algebra system **REDUCE** but **GRG** has its own simple input language whose commands resemble short English phrases. **GRG** understands tensors, spinors, vectors, differential forms and knows all standard operations with these quantities. Input form for mathematical expressions is very close to traditional mathematical notation including Einstein summation rule. **GRG** knows covariant properties of the objects: one can easily raise and lower indices, compute covariant and Lie derivatives, perform coordinate and frame transformations etc. **GRG** works in any dimension and allows one to represent tensor quantities with respect to holonomic, orthogonal and even any other arbitrary frame. One of the key features of **GRG** is that it knows a large number of built-in usual field-theoretical and geometrical quantities and formulas for their computation providing ready solutions to many standard problems. |
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26 27 28 29 30 31 32 | 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 | - + | - Kinematics for time-like congruences. - Ideal and spin fluid. - Newman-Penrose formalism. - Gravitational equations for the theory with arbitrary gravitational Lagrangian in Riemann and Riemann-Cartan spaces. ## Documentation |
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