2:15 AM
new-tag There is a new tag called range. This tag (and once also domain) were added and removed also in other questions: math.stackexchange.com/posts/4047897/revisions math.stackexchange.com/posts/4046166/revisions math.stackexchange.com/posts/4046189/revisions
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Q: How do you find the domain and range of a rational function(or any other function) using Calculus
I know that the only ways to find the range of a rational function is using an inverse, graphing, or using calculus. How would you use calculus to find the range of a rational function (or any other type of function) using Calculus?
Posts where the tag range was added/removed (including the editors): data.stackexchange.com/math/query/1105163/… data.stackexchange.com/math/query/1038474/…
Most frequent taggers/removers for range: data.stackexchange.com/math/query/1146497/… data.stackexchange.com/math/query/1038477/…
The above queries return one older occurrence of range from 2018. math.stackexchange.com/posts/2759764/revisions I do not see any older occurrences of domain.
Posts where the tag domain was added/removed (including the editors): data.stackexchange.com/math/query/1105163/… data.stackexchange.com/math/query/1038474/…
Most frequent taggers/removers for domain: data.stackexchange.com/math/query/1146497/… data.stackexchange.com/math/query/1038477/…
9 hours later…
10:54 AM
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In case this is helpful, I am working in the category of condensed abelian groups, but I think this can be phrased in a more general categorical way. Suppose we have a closed symmetric monoidal category $\mathcal{C}$, with internal hom ${\mathscr{H}\kern -.5pt om}$. By the adjunction we have that...
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