User talk:Tito Omburo

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Hi Tito.

I have seen your restoration of my latest modification on the page Cauchy-Riemann equations. Could you tell me this change (adding partial derivative continuity for Cauchy-Riemann equations to make a sufficient condition for complex differentiability) is completely wrong?

I think this change is logical and supported by the following references. Please provide me your explanation. If not, then I will restore the modification.

(Ref.[1]) Chapter 10 "Complex Calculus", Mathematical Physics, A Modern Introduction to Its Foundations, 2nd, Sadri Hassani, 2013.

(Ref.[2]) Chapter 11.2 "Cauchy-Riemann Conditions", Mathematical Methods for Physicists - A Comprehensive Guide, 7th, Arfken, Weber, and Harris, 2013. Goodphy (talk) 23:01, 11 September 2023 (UTC)[reply]

The sources are cited in the article itself, which even includes a proof. Complex differentiability at a point is equivalent to the following two conditions: (1) the real and imaginary parts of the function are differentiable (as real functions of two variables) at the point, (2) they satisfy the Cauchy-Riemann equations at the point. There is no requirement of continuity. None. (Continuity of the partial derivatives would guarantee that the function is real differentiable at the point, but that is not a necessary condition, and so it's wrong to include it in a discussion of "necessary and sufficient conditions" for complex differentiability.)

An example of a complex differentiable function with discontinuous partials is ${\displaystyle f(z)=z^{2}e^{i/|z|}}$ at ${\displaystyle z=0}$. Tito Omburo (talk) 23:45, 11 September 2023 (UTC)[reply]

Hi Tito Omburo.

I agree that the C-R (Cauchy-Riemann) equations are a necessary condition for complex differentiability.

However, I do not agree that the C-R equations is solely a sufficient condition for complex differentiability. It is possible that there is a function which is complex-differentiable while their partial derivatives with respect to real variables x and y are not continuous, but it does not mean that the C-R equation alone is the sufficient condition. If there is a partial derivative jump at z = x + iy, then the mathematical expression after the sentence "This is equivalent to the existence of the following linear approximation" of the chapter "Complex differentiability" in this Wikipedia page is not guaranteed because of the jump. This is also supported by referenced I have mentioned before in this talk.

Thus, I think the statement like "the C-R equations is equivalent to the complex differentiability" is a danger statement. The two references that I have mentioned do not say that way. Goodphy (talk) 10:18, 12 September 2023 (UTC)[reply]

I gave two necessary conditions, but you seem to be ignoring the first one. Real differentiability is defined as the existence of a linear approximation (see differentiable function#Differentiability in higher dimensions). Tito Omburo (talk) 10:28, 12 September 2023 (UTC)[reply]

Hi.

I have slept on your feedback, and the following conclusion is made via some investigation:

Real differentiability (differentiable with respect to real variables) is a stronger condition than the existence of partial derivatives for a 2 or higher dimensional function domain. And if the real and imaginary parts of a complex function are real-differentiable, then their sum is of course differentiable. There is not many things earned from this.

So, I suggest modifying this Wikipedia page (Cauchy-Riemann equations) such that the page will use partial derivatives of u (real part of a complex function f) and v (imaginary part of f) instead of real differentiability. This prevents readers from studying higher dimensional differentiability definitions to understand the what C-R equations for (saving time). I believe this modification will also match with university textbook descriptions including the mentioned two references. Goodphy (talk) 11:01, 13 September 2023 (UTC)[reply]

I oppose this proposed change. You cannot modify the necessary and sufficient conditions for complex differentiability, well covered by the literature and existing article, to suit your personal distaste for standard definitions from calculus. (As I have already shown, your proposal would actually give incorrect necessary conditions.) Note that, moreover, the discussion of Goursat's theorem also doesn't assume continuity of the partial derivatives, so this is a pretty important point for the article as a whole! In fact, one does not even need to assume differentiability, by the Looman-Menchoff theorem, provided you are in an open set. Since the bulk of applications concern this case, your beef with the correct necessary and sufficient conditions seems particularly silly. Tito Omburo (talk) 11:30, 13 September 2023 (UTC)[reply]

Hi. I appreciate your effort and expertise to improve this page! Can I ask a question? For a complex function f = u +iv, Dose the current section "Complex differentiability" explicitly show the real differentiability of u and v as a necessary condition for the complex differentiability of f?. Goodphy (talk) 12:08, 14 September 2023 (UTC)[reply]

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I reverted your edits to Weyl connection because the subject does not seem to be notable. Just two citations fails WP:GNG. Please read WP:SPINOUT regarding how to develop the content. Also, many editors are not numerate so it would help if you collaborated with an experienced editor at Wikipedia:WikiProject Mathematics. If you hadn't already, you might consider joining that project. Chris Troutman (talk) 16:17, 17 October 2023 (UTC)[reply]

I have added more references. Is there some specific number of references you would be happy with for a stub? (I note that the article that you restored the redirect to actually had fewer references than the one you happily deleted and threatened its author with blocking.) Tito Omburo (talk) 16:24, 17 October 2023 (UTC)[reply]

There is not a firm number for WP:GNG, but I don't think the citations (from reliable sources) are quite enough. Please read WP:OTHERCRAPEXISTS regarding the rest of your complaint. I'm just trying to get a barnstar from NPP. Your edit triggered my patrol. Other content on Wikipedia does not concern me. Chris Troutman (talk) 19:00, 17 October 2023 (UTC)[reply]

There are now almost two dozen sources, including standard textbooks, journal articles, and even the Springer Encyclopedia. I humbly sumbit that this is about as notable as it gets. No idea why you've decided to pick this weird beef with me. I hope you get your "barnstar" and feel really good about all the bullying you did to get it. Tito Omburo (talk) 20:02, 17 October 2023 (UTC)[reply]

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