Jean-Francois Rossignol
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 Aug25 awarded Popular Question Aug6 awarded Yearling Jul2 awarded Curious Nov16 comment Visualizing Sylvester's law But then what is the geometric interpretation ? Could you edit your answer so that it is more structured Nov16 comment Visualizing Sylvester's law Could you illustrate one example in detail using the answer of mjqxxxx ? So that I will know how to proceed Nov16 comment Visualizing Sylvester's law Could you just include one geometric interpretation ? So that I know how to proceed with the others ? Nov16 comment Visualizing Sylvester's law Thank you for your answer. But I am still having a problem with the second part of the question. With the description. I think I can manage the representation but could you help with the orbits Nov16 comment Visualizing Sylvester's law @AsafKaragila Good one :-) Nov16 comment Visualizing Sylvester's law @julien Est-ce que vous pouvez m'aider ? Nov16 asked Visualizing Sylvester's law Nov8 comment Group classification generated by two elements The OP asked for a complete solution though ;) Nov8 comment Integrals for children @MichaelHoppe I didn't mean defining an actual integral but the idea behind it. Nov8 comment Integrals for children Child : 10 year old Nov8 asked Integrals for children Sep22 asked Determining the matrix of a linear transformation Sep18 accepted Property on path-components Sep18 asked Property on path-components Sep18 accepted Property related to path connected Sep18 comment Property related to path connected @StenH. So we can't have both a and b. And the partition is deduced from the fact that there is an equivalence relation defined on S Sep18 comment Property related to path connected I am asking how to show that every subset $S$ is partitioned into path-connected subsets with the property that two points in different subsets cannot be connected by a path in $S$. I already showed that $\sim$ is an equivalence relation. How do we continue from there. Thank you