Category:Pages that use a deprecated format of the math tags
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 | This is a MediaWiki built-in Tracking category. See Special:TrackingCategories for category criteria. |
Pages with deprecated command in <math>...</math> equations. Please visit mw:Extension:Math/Roadmap for the update plan, leave some feedback or join our commission at phab:T195861.
The specific replacement that should be made inside <math>...</math> tags are
| Deprecated syntax | Replacement | Comment |
|---|---|---|
| $ | \$ | redefinition would involve changing the character code |
| % | \% | redefinition would involve changing the character code |
| \or | \lor | \or is used by standard LaTeX for logical operations in macros etc. see [1]; |
| \and | \land | causes normal align environment to fail |
| \pagecolor | remove | not needed and not working anymore, done manually |
| \part | \partial | acceptable if the document doesn't use sectioning with \part. |
| \ang | \angle | this only conflicts with siunitx package. |
| \C | \Complex | conflicts with puenc.def e.g. from hyperref package |
| \H | \mathbb{H} | conflicts with text command \H{0} which is ő. |
| \bold | \mathbf | |
| \Bbb | \mathbb |
Pages in category "Pages that use a deprecated format of the math tags"
The following 97 pages are in this category, out of 97 total.
A
- User:Adamashraf
- User talk:Addemf
- User:Addemf/sandbox/Convexity and Real Product-to-Sum Bound
- User:Addemf/sandbox/Integrating Derivatives/Absolute Continuity
- User:Addemf/sandbox/Integrating Derivatives/Bounded Variation
- User:Addemf/sandbox/Integrating Derivatives/Integrating Derivatives
- User:Addemf/sandbox/Integrating Derivatives/Monotone Functions Are Differentiable A.E.
- User:Addemf/sandbox/Integrating Derivatives/The Devil's Staircase
- User:Addemf/sandbox/Introduction to Differentiation
- User:Addemf/sandbox/L2 Inner Product Is an Inner Product
- User:Addemf/sandbox/L2 Is a Vector Space
- User:Addemf/sandbox/L2 Is Complete
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Functions of Bounded Variation
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Integrable Is Almost Continuous
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Introduction
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Lebesgue's Differentiation Theorem
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Markov and Hardy-Littlewood
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Monotone Functions and Variation
- User:Addemf/sandbox/Lebesgue Differentiation (version 2.0)/Monotone Implies Differentiable A.E.
- User:Addemf/sandbox/Lebesgue Differentiation (version 3.0)/Absolute Continuity
- User:Addemf/sandbox/Lebesgue Differentiation (version 3.0)/Derivatives of Integrals
- User:Addemf/sandbox/Lebesgue Differentiation (version 3.0)/Integrable Functions Are Almost Continuous
- User:Addemf/sandbox/Lebesgue Differentiation (version 3.0)/Markov and Hardy-Littlewood
- User:Addemf/sandbox/Lebesgue Differentiation (version 3.0)/Monotone Functions
- User:Addemf/sandbox/Length-measure and Differentiation
- User:Addemf/sandbox/Linfinity
- User:Addemf/sandbox/Lp Product-to-Sum Bound and Triangle Inequality
- User:Addemf/sandbox/Lp Spaces
- User:Addemf/sandbox/Markov and Hardy-Littlewood
- User:Addemf/sandbox/Scientific Reasoning for Non-scientists/A Precis on Sets
- User:Addemf/sandbox/Scientific Reasoning for Non-scientists/Propositional Logic
- User:Addemf/sandbox/Technical Reasoning/Naive Set Theory
- Algebra 1/Unit 1: Introduction To Algebra
- Algebraic normal form
- Template:Algebraic normal form/table
- Analytic continuation
M
- Measure Theory
- Measure Theory/Absolute Continuity
- Measure Theory/Approximations of Measurable Functions
- Measure Theory/Approximations of Measurable Sets
- Measure Theory/Approximations of Sequences of Functions
- Measure Theory/Bounded Variation
- Measure Theory/Convexity and the Product-to-Sum Bound
- Measure Theory/Countable Additivity
- Measure Theory/Derivatives of Integrals
- Measure Theory/Devil's Staircase
- Measure Theory/Differentiation and Integration
- Measure Theory/Foundational Properties of Bounded Integrals
- Measure Theory/Fourier and the Need for Swaparoo
- Measure Theory/Generalizing
- Measure Theory/Integrable Almost Continuous
- Measure Theory/Integral Product Bound and Triangle Inequality
- Measure Theory/Integrating Derivatives
- Measure Theory/L2 Inner Product Space
- Measure Theory/L2 Inner Product, Norm, Space, Distance
- Measure Theory/L2 Is Complete
- Measure Theory/L2 Vector Space
- Measure Theory/Length Measure
- Measure Theory/Length-integration and Measurable Functions
- Measure Theory/Length-integration Defined
- Measure Theory/Lexicon
- Measure Theory/Linfinity
- Measure Theory/Markov and Hardy-Littlewood
- Measure Theory/Measurable Functions, Length-integral, and the Need for Approximations
- Measure Theory/Measuring Sets of Real Numbers
- Measure Theory/Monotone Functions Differentiable
- Measure Theory/Outer Measure
- Measure Theory/Outer Measure Subadditivity
- Measure Theory/Outer Measuring Intervals
- Measure Theory/Properties of Bounded Integrals
- Measure Theory/Properties of General Integrals
- Measure Theory/Properties of Nonnegative Integrals
- Measure Theory/Properties of Simple Integrals
- Measure Theory/Section 1 Proofs, Measure
- Measure Theory/The Measurable Sets Form a Sigma-algebra
- Measure Theory/There is No Total Measure of Real Numbers