MediaWiki API result

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                "ns": 0,
                "title": "The algebra of oriented cells",
                "pageid": 467,
                "size": 37364,
                "wordcount": 6395,
                "snippet": "But do we even understand the <span class='searchmatch'>meaning</span> of \u201cgo around\u201d? After all, the band might go back and forth, cancelling\n1. The <span class='searchmatch'>meaning</span> of chains $2x,3x,-x$ is clear. \n",
                "timestamp": "2015-12-01T14:09:56Z"
            },
            {
                "ns": 0,
                "title": "Applications of integral calculus",
                "pageid": 1772,
                "size": 105677,
                "wordcount": 18460,
                "snippet": "...ity of a rod of length $2$ is changing linearly: from $1$ to $2$. Then the <span class='searchmatch'>meaning</span> of the average density is clear; it is $1.5$. \n...rcise.''' What if we allow the values of $m_i$ to be negative? What is the <span class='searchmatch'>meaning</span> of the system and of $c$?\n",
                "timestamp": "2019-02-13T01:01:17Z"
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            {
                "ns": 0,
                "title": "The integral",
                "pageid": 476,
                "size": 67649,
                "wordcount": 11473,
                "snippet": "...the area metaphor, since $\\Delta x  &gt;0$, the <span class='searchmatch'>meaning</span> is determined by the <span class='searchmatch'>meaning</span> of $f(c_i)$:\n...driving, the displacement still makes sense. It's zero! We extend then the <span class='searchmatch'>meaning</span> of the Riemann sum to include intervals of zero length.\n",
                "timestamp": "2019-01-19T21:36:24Z"
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                "ns": 0,
                "title": "Functions of several variables",
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                "snippet": "The <span class='searchmatch'>meaning</span> of the vector $N$ is revealed once we remember that the dot product of two \nInformally, the <span class='searchmatch'>meaning</span> of the domain is the same: the set of all possible inputs.\n",
                "timestamp": "2018-11-24T13:59:33Z"
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                "ns": 0,
                "title": "Homology as an equivalence relation",
                "pageid": 1223,
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                "wordcount": 3530,
                "snippet": "Let's examine, informally, a mathematical <span class='searchmatch'>meaning</span> of topological features of subsets of the Euclidean space. We will first co\n\\text{dim:} &amp; \\text{features:} &amp; \\text{<span class='searchmatch'>meaning</span>:} &amp; &amp; \\text{dim:} \\\\\n",
                "timestamp": "2015-06-23T19:54:46Z"
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                "title": "Differential calculus of parametric curves",
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                "snippet": "'''Exercise.''' Explain the <span class='searchmatch'>meaning</span> of \u201clie on the different sides of\u201d.\nWhat is the geometric <span class='searchmatch'>meaning</span> of these higher derivatives?\n",
                "timestamp": "2018-11-24T13:52:04Z"
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                "ns": 0,
                "title": "Operations on functions",
                "pageid": 102,
                "size": 145429,
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                "snippet": "'''Exercise.''' What is the <span class='searchmatch'>meaning</span> of $|m|$ in the transformation given by $f(x)=mx+b$?\n'''Exercise.''' What is the <span class='searchmatch'>meaning</span> of $b$ in the transformation given by $f(x)=mx+b$?\n",
                "timestamp": "2019-02-23T02:01:42Z"
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                "ns": 0,
                "title": "Simplicial complexes and maps",
                "pageid": 377,
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                "snippet": "Now, with a graph on the left, what could be the <span class='searchmatch'>meaning</span> of the ''data'' behind the picture on the right?\n...of orientation of cells of dimensions $1$ and $2$ clear, what could be the <span class='searchmatch'>meaning</span> of orientation of a vertex?\n",
                "timestamp": "2016-03-30T12:52:22Z"
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                "title": "Vector and complex variables",
                "pageid": 574,
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                "snippet": "This suggests what the <span class='searchmatch'>meaning</span> of $AX$ should be. We \u201cmultiply\u201d either row in $A$, as a vector, by the\nThe solution considered initially has the following geometric <span class='searchmatch'>meaning</span>. We can think of the two equations as equations about the coordinates of ''\n",
                "timestamp": "2018-12-10T02:33:00Z"
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            {
                "ns": 0,
                "title": "Vector fields",
                "pageid": 593,
                "size": 93130,
                "wordcount": 16253,
                "snippet": "...ith time during our trip. Just as always, the Leibniz notation reveals the <span class='searchmatch'>meaning</span>:\n...the <span class='searchmatch'>meaning</span> of the right-hand side is still clear. But what should be the <span class='searchmatch'>meaning</span> of the left-hand side? It should be the total sum of $G$ over all boundary \n",
                "timestamp": "2019-01-09T04:52:17Z"
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