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Функциональный анализ и его приложения
24 февраля 2022 г. 09:00–10:00, г. Ташкент, Онлайн на платформе Zoom
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Isomorphism between the algebra of measurable functions and its subalgebra of approximately differentiable functions
Sh. A. Ayupova, K. K. Kudaybergenovab a V. I. Romanovskiy Institute of Mathematcs of the Academy of Sciences of Uzbekistan
b Karakalpakstan Regional Branch of the Institute of Mathematics named after V.I. Romanovsky of the Uzbekistan Academy of Sciences
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Аннотация:
The present talk is devoted to study of certain classes of homogeneous subalgebras of the algebra of all complex-valued measurable functions on the unit interval. Let $S(0,1)$ be the algebra of all (classes of equivalence) measurable complex-valued functions and let $AD^{(n)}(0,1)$ ($n\in \mathbb{N}\cup\{\infty\}$) be the algebra of all (classes of equivalence of) almost everywhere $n$-times approximately differentiable functions on $[0,1].$ We prove that $AD^{(n)}(0,1)$ is a regular, integrally closed, $\rho$-closed, $c$-homogeneous subalgebra in $S(0,1)$ for all $n\in \mathbb{N}\cup\{\infty\},$ where $c$ is the continuum. Further we show that the algebras $S(0,1)$ and $AD^{(n)}(0,1)$ are isomorphic for all $n\in \mathbb{N}\cup\{\infty\}.$ As applications of these results we obtain that the dimension of the linear space of all derivations on $S(0,1)$ and the order of the group of all band preserving automorphisms of $S(0,1)$ are equal $2^c.$
Website:
https://us02web.zoom.us/j/8022228888?pwd=b3M4cFJxUHFnZnpuU3kyWW8vNzg0QT09
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