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- ==Diagram showing how terms for arrows in a category relate== {{Todo|Can diagram be any neater?}}738 B (101 words) - 14:50, 6 February 2016
- ! Diagram of a McCulloch-Pitts [[neuron (neural network)|neuron]]497 B (71 words) - 13:26, 22 April 2016
- ==Diagram== {{Todo|Fix up diagram a bit?}}879 B (123 words) - 20:53, 23 September 2016
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248 B (40 words) - 20:38, 8 October 2016
- ! [[Commutative diagram]] showing the situation261 B (38 words) - 22:54, 8 October 2016
- ...am is identical to the [[Characteristic property of the product topology]] diagram - why!? Because they're both instances of a [[categorical product]]!868 B (120 words) - 21:01, 19 October 2016
Page text matches
- ...extended discussion as to why the definition works, including an animated diagram (albeit a low-res capture from a graphic calculator (at the time of writing7 KB (999 words) - 16:51, 11 May 2020
- ...ferent conditions for continuity, there's also continuity at a point. This diagram is supposed to show how they relate to each other.6 KB (972 words) - 01:44, 14 October 2016
- It is clear from the diagram that <math>(0,1)=(0,2)'=(1,1)''</math>9 KB (1,525 words) - 16:30, 23 August 2015
- How is this "gluing", well you can take a square and glue as this diagram shows:4 KB (681 words) - 10:33, 7 April 2015
- (See diagram on right) - notice that there are some "iffy" parts with lines (as seen abo6 KB (975 words) - 00:18, 11 April 2015
- A map is smooth if the following diagram commutes:1 KB (235 words) - 21:37, 14 April 2015
- ...Passing to the quotient]] we see that {{M|\exists\bar{f} }} that makes the diagram below commute '''if and only if''' {{M|1=t_1\sim t_2\implies f(t_1)=f(t_2)}3 KB (592 words) - 16:57, 11 May 2015
- <m> \xymatrix{ %Our diagram is a 4x10 matrix This diagram doesn't display properly inside theorem boxes: '''FIXED'''2 KB (325 words) - 17:14, 23 October 2016
- {{float-right|{{/Diagram}}|style=max-width:20em;}}Given a function, {{M|f:X\rightarrow Y}} and anoth ...lde{f}\circ w</math> (equivalently, the diagram on the right [[Commutative diagram|commutes]]).8 KB (1,644 words) - 20:49, 11 October 2016
- ...e largest topology) such that any map {{M|\tilde{f} }} where the following diagram commutes is also continuous: ...re on that later) linear map, {{M|\tilde{f}:W\rightarrow T}} for which the diagram commutes, or {{M|1=f=\tilde{f}\circ t}}5 KB (921 words) - 05:43, 7 June 2015
- This diagram says: ...a bilinear map, there exists a linear map, {{M|\tilde{f} }}, such that the diagram commutes2 KB (460 words) - 10:08, 12 June 2015
- ...emember this which uses arrow directions to 'encode' the difference. In my diagram upwards arrows indicate something to do with union, with {{M|\cup}}, downwa ! Alec's 'super' diagram3 KB (449 words) - 20:06, 19 August 2016
- ...{{M|1=A\cap B=A-(A-B)}} or indeed {{M|B-(B-A)}}. Include picture of [[Venn diagram]]3 KB (490 words) - 11:38, 21 August 2016
- ...s is not true in general, it requires {{M|B\subseteq A}}{{Note|Include ven diagram}}2 KB (326 words) - 05:09, 22 August 2015
- ===As a diagram=== ...m to be asking when a map (dotted line) is induced such that the following diagram commutes:3 KB (588 words) - 09:38, 24 November 2015
- Then the following two [[Commutative diagram|diagrams commute]] ===Diagram for addition on equivalence classes===5 KB (879 words) - 23:09, 1 December 2016
- ...in the target [[category]] {{M|\mathscr{D} }}, as shown by the following [[diagram]]: * In this diagram the objects {{M|TX}}, {{M|TY}} and {{M|TZ}} are in a different category.1 KB (205 words) - 16:27, 2 February 2016
- ...row Z}} are morphisms of {{M|C}}, then the following [[commutative diagram|diagram commutes]]: Thus the diagram just depicts the requirement that:2 KB (253 words) - 15:47, 2 February 2016
- ...row Z}} are morphisms of {{M|C}}, then the following [[commutative diagram|diagram commutes]]: Thus the diagram just depicts the requirement that:2 KB (263 words) - 16:53, 2 February 2016
- ...row|arrows]] in a [[category]], here are some common terms compared, and a diagram showing how they relate. {{:Types of category arrows/Diagram}}1,012 B (181 words) - 14:43, 6 February 2016
- ==Diagram showing how terms for arrows in a category relate== {{Todo|Can diagram be any neater?}}738 B (101 words) - 14:50, 6 February 2016
- ...tegory theory navbox]] focuses too much on arrows and types of arrows. The diagram might not be the most suitable. [[User:Alec|Alec]] ([[User talk:Alec|talk]]328 B (44 words) - 11:43, 19 February 2016
- ! Diagram of a cone1 KB (197 words) - 22:27, 28 February 2016
- ! Diagram of a cocone1 KB (182 words) - 22:28, 28 February 2016
- ...2" align="center" style="background-color:#fff;" | such that the following diagram commutes2 KB (351 words) - 16:59, 1 March 2016
- ...led the ''mediating arrow'') such that the following [[commutative diagram|diagram commutes]]: ! Diagram of the coproduct of {{M|A}} and {{M|B}}1 KB (192 words) - 19:46, 1 March 2016
- ...led the ''mediating arrow'') such that the following [[commutative diagram|diagram commutes]]: ! Diagram of the product of {{M|A}} and {{M|B}}1 KB (192 words) - 23:32, 29 February 2016
- ** this diagram commutes then {{M|1=f=g}}, {{M|f}} and {{M|g}} are the same arrow.986 B (163 words) - 13:52, 13 March 2016
- ** this diagram commutes then {{M|1=f=g}}, {{M|f}} and {{M|g}} are the same arrow.987 B (163 words) - 13:59, 13 March 2016
- {{Stub page|Find a ven diagram and make an infobox}}830 B (139 words) - 00:59, 21 March 2016
- ! Block diagram of a generic neuron with inputs: {{M|I_1,\ldots,I_n}}2 KB (310 words) - 13:33, 22 April 2016
- ! Diagram of a McCulloch-Pitts [[neuron (neural network)|neuron]]497 B (71 words) - 13:26, 22 April 2016
- ...:0.05em;margin-top:0em;margin-bottom:0em;">{{:McCulloch-Pitts neuron/Block diagram}}</div>The ''McCulloch-Pitts neuron'' has<ref>Neural Networks and Statistic973 B (159 words) - 13:28, 22 April 2016
- ! Diagram ! Diagram2 KB (295 words) - 15:44, 25 April 2016
- This diagram commutes, composition of continuous maps is continuous, thus {{M|f_t}} is c974 B (168 words) - 23:46, 2 May 2016
- </noinclude>{{:Characteristic property of the product topology/Statement/Diagram}}<!-- {{Todo|Link to diagram}}2 KB (340 words) - 20:55, 23 September 2016
- ! colspan="9" | Ven diagram showing the regions (some cells still have borders, only the coloured ones8 KB (1,271 words) - 08:36, 29 May 2016
- ! This diagram commutes ! This diagram commutes4 KB (654 words) - 23:06, 10 July 2016
- ! Diagram ...we have {{M|1=\varphi=\overline{\varphi}\circ\pi}} (or in other terms, the diagram on the right commutes)7 KB (1,195 words) - 22:55, 3 December 2016
- ...\text{Ker}(\varphi)\rightarrow\text{Im}(\varphi)}} such that the following diagram commutes: ! Diagram of morphisms in play3 KB (528 words) - 17:41, 16 July 2016
- ! Diagram4 KB (726 words) - 02:59, 7 August 2016
- ...j)\big)}} {{Caution|I didn't just pull this out of thin air, I drew a venn diagram for the case {{M|1=m_1=m_2=1}} and worked from there, adding some notes on7 KB (1,398 words) - 18:33, 19 August 2016
- ==Diagram== {{Todo|Fix up diagram a bit?}}879 B (123 words) - 20:53, 23 September 2016
- ! [[Diagram]]2 KB (262 words) - 22:45, 25 September 2016
- ...G|thumb|Take -1 to any point on the circle (we pick the south pole in this diagram), then go around the circle clockwise at a constant speed such that by {{M| ...out the south-pole is bijective, ie it is injective and surjective, so the diagram on the left is "almost injective" in that it is injective everywhere except606 B (107 words) - 22:35, 11 October 2016
- * {{M|E:D^2\rightarrow H}} is the composition of maps in my diagram that take {{M|D^2}}, double its radius, then embed it in {{M|\mathbb{R}^3}} ...{{link|passing to the quotient|topology}} theorem to yield a [[commutative diagram]]: <span><m>\xymatrix{ D^2 \ar[d]_\pi \ar[r]^E \ar@/^1.5pc/[rr]^{f} & H \ar9 KB (1,732 words) - 23:26, 11 October 2016
- ! [[Commutative diagram]] showing the situation261 B (38 words) - 22:54, 8 October 2016
- {{float-right|{{/Diagram}}}}Let {{M|X}} and {{M|Y}} be [[sets]], let {{M|f:X\rightarrow Y}} be any [6 KB (1,097 words) - 20:24, 9 October 2016
- ...on of an equivalence relation induced by that function yields an injection/Diagram}}}}Let {{M|X}} and {{M|Y}} be [[sets]], let {{M|f:X\rightarrow Y}} be any '2 KB (339 words) - 12:57, 9 October 2016
- </noinclude>{{float-right|{{Universal property of the quotient topology/Diagram}}}}Let {{Top.|X|J}} and {{Top.|Y|K}} be [[topological spaces]] and let {{M|495 B (71 words) - 22:16, 9 October 2016
- ...on of an equivalence relation induced by that function yields an injection/Diagram}}}}Let {{Top.|X|J}} and {{Top.|Y|K}} be [[topological spaces]] and let {{M|3 KB (430 words) - 22:23, 9 October 2016
- But as the diagram shows, {{M|\alpha}} and {{M|\delta}} could be rather close! (or equivalentl ...that they're disjoint. There's a caveat here. This is what is shown in the diagram.8 KB (1,450 words) - 12:34, 12 October 2016
- ******** Notice: {{Note|The situation is shown in the 3<sup>rd</sup> diagram on the right}}8 KB (1,427 words) - 08:30, 18 October 2016
- ...ows that {{M|\mathbb{RP}^2}} contains a [[Mobius strip]], {{M|M}}. Use the diagram, taking into account the glueings, to describe the [[complement]] of {{M|M} | A diagram showing them together is very cluttered and hard to see (it either looks a7 KB (1,331 words) - 12:27, 19 October 2016
- | [[File:KBottleVertexLocally.JPG|thumb|there's a slight mistake in this diagram, notice that all the other diagrams have a border around the exterior of th4 KB (729 words) - 12:30, 19 October 2016
- ...e this is the kind of thing that you're after (Mond, my tutor, has drawn a diagram like this before). We assign 0 to everything, and as the thinner component3 KB (464 words) - 11:57, 19 October 2016
- be a [[commutative diagram]] of {{M|R}}-[[modules]] in which the rows are [[exact sequences]]. Show th1 KB (186 words) - 16:57, 19 October 2016
- ...am is identical to the [[Characteristic property of the product topology]] diagram - why!? Because they're both instances of a [[categorical product]]!868 B (120 words) - 21:01, 19 October 2016
- ...:0.2em;">{{:Characteristic property of the direct product module/Statement/Diagram}}</div>Let {{M|(R,*,+,0)}} be a [[ring]] (with or without [[ring with unity {{Todo|Link to diagram, this basically says it all though!}}1 KB (164 words) - 21:02, 19 October 2016
- {{Todo|Mention [[commutative diagram]] and such}}1 KB (152 words) - 14:02, 20 October 2016
- We can do this as we know there's an upper bound (denoted {{M|b}} on the diagram)3 KB (493 words) - 07:21, 23 November 2016
- * Such that {{M|\lambda[v]\eq [\lambda v]}} - the diagram commutes.4 KB (700 words) - 23:09, 1 December 2016
- ! Diagram of the situation, the double-arrows is [[multilinear map|multilinear]], the ...overline{A}\circ p\eq A}} (that is: the diagram on the right [[commutative diagram|commutes]])2 KB (268 words) - 22:07, 20 December 2016
- ! Diagram END OF DIAGRAM3 KB (626 words) - 23:51, 3 December 2016
- ! Diagram2 KB (409 words) - 22:17, 12 December 2016
- {{Diagram|1=<m>\xymatrix{ {{Diagram|1=<m>\xymatrix{8 KB (1,475 words) - 07:35, 14 December 2016
- From the diagram we define:10 KB (1,736 words) - 01:00, 23 January 2017
- {{Requires proof|easy=true|grade=D|msg=Draw a [[Venn diagram]], makes sense.}}424 B (71 words) - 15:07, 31 January 2017
- {{Requires proof|grade=D|easy=true|msg=Draw a [[Venn diagram]], easy enough, but also the proof is easy enough too!}}410 B (68 words) - 15:08, 31 January 2017
- {{ie}} if the diagram on the right commutes ...basically saying if they're lifts over the same part then they agree, the diagram above commuting has large implications3 KB (658 words) - 19:20, 25 February 2017
- ! If {{M|\varphi}} exists such that all maps are [[continuous]] and the [[diagram commutes]] then {{M|\varphi}} is a ''lifting'' of {{M|f}} ''through'' {{M|p ...tarrow E}}, such that {{M|p\circ\varphi\eq f}} (the diagram on the right [[diagram commutes|commutes]])2 KB (337 words) - 01:59, 26 February 2017
- [[File:LineCheck.png|thumbnail|Best diagram I have to hand]]2 KB (444 words) - 21:02, 2 January 2018