User:Richard Pinch/Redlinks: Difference between revisions
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imported>Richard Pinch (redlinks from identity matrix) |
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A list of redlinks I've created with the intention of filling in at some time: | A list of redlinks I've created with the intention of filling in at some time: | ||
* [[Universal property]] | |||
* [[Tychonoff product theorem]] | |||
* [[Paving dimension]] | |||
* [[Matroid]], [[Geometric lattice]] | |||
* [[General topology]] or possibly [[Point-set topology]] | |||
* [[Galois group]], [[Galois extension]] | |||
* [[Galois connection]] | |||
* [[Finite set]], [[Infinite set]] | |||
* [[Bolzano-Weierstrass theorem]] | |||
* [[Conductor of an elliptic curve]] | |||
From [[Centre (mathematics)]]: | |||
* In [[triangle geometry]] | |||
** The [[excentre]]s, centres of the three circles internally tangent to one side and externally to the other two | |||
From [[Chain (mathematics)]]: | |||
* A [[linear order|linearly ordered]] sequence of elements of a [[partial order]] | |||
* An element of a group in a [[chain complex]] in [[homological algebra]] | |||
* The [[chain rule]] for the [[derivative]] of [[function composition]] | |||
From [[Talk:Series (mathematics)]]: | From [[Talk:Series (mathematics)]]: | ||
Line 9: | Line 27: | ||
** [[Fourier series]] | ** [[Fourier series]] | ||
** [[Power series]] (currently a redirect) | ** [[Power series]] (currently a redirect) | ||
** [[ | ** [[Puiseux series]] | ||
* [[Series (group theory)]], a chain of subgroups of a group. Special types include | * [[Series (group theory)]], a chain of subgroups of a group. Special types include | ||
** [[Central series]] | ** [[Central series]] | ||
Line 17: | Line 35: | ||
* [[Series (lattice theory)]], a chain in a partially ordered set | * [[Series (lattice theory)]], a chain in a partially ordered set | ||
* [[Time series]] in probability and statistics | * [[Time series]] in probability and statistics | ||
From [[Distributivity]]: | From [[Distributivity]]: | ||
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** In [[propositional logic]], [[conjunction]] (logical and) distributes over [[disjunction]] (logical or) and disjunction distributes over conjunction; | ** In [[propositional logic]], [[conjunction]] (logical and) distributes over [[disjunction]] (logical or) and disjunction distributes over conjunction; | ||
** In a [[Boolean algebra]], [[join]] distributes over [[meet]] and meet distributes over join. | ** In a [[Boolean algebra]], [[join]] distributes over [[meet]] and meet distributes over join. | ||
Latest revision as of 03:36, 22 November 2023
The account of this former contributor was not re-activated after the server upgrade of March 2022.
A list of redlinks I've created with the intention of filling in at some time:
- Universal property
- Tychonoff product theorem
- Paving dimension
- Matroid, Geometric lattice
- General topology or possibly Point-set topology
- Galois group, Galois extension
- Galois connection
- Finite set, Infinite set
- Bolzano-Weierstrass theorem
- Conductor of an elliptic curve
From Centre (mathematics):
- In triangle geometry
- The excentres, centres of the three circles internally tangent to one side and externally to the other two
From Chain (mathematics):
- A linearly ordered sequence of elements of a partial order
- An element of a group in a chain complex in homological algebra
- The chain rule for the derivative of function composition
From Talk:Series (mathematics):
- Series (analysis), the cumulative sum of a given sequence of terms. Special types include
- Dirichlet series
- Fourier series
- Power series (currently a redirect)
- Puiseux series
- Series (group theory), a chain of subgroups of a group. Special types include
- Series (lattice theory), a chain in a partially ordered set
- Time series in probability and statistics
From Distributivity:
- There are three closely connected examples where each of two operations distributes over the other:
- In set theory, intersection distributes over union and union distributes over intersection;
- In propositional logic, conjunction (logical and) distributes over disjunction (logical or) and disjunction distributes over conjunction;
- In a Boolean algebra, join distributes over meet and meet distributes over join.