Universally catenarian domains of D M type. II.
Dobbs, David E., Fontana, Marco (1991)
International Journal of Mathematics and Mathematical Sciences
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Displaying similar documents to “Root closure in commutative rings”
Universally catenarian domains of D M type. II.
Absolutely S-domains and pseudo-polynomial rings
Noomen Jarboui, Ihsen Yengui (2002)
Colloquium Mathematicae
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A domain R is called an absolutely S-domain (for short, AS-domain) if each domain T such that R ⊆ T ⊆ qf(R) is an S-domain. We show that R is an AS-domain if and only if for each valuation overring V of R and each height one prime ideal q of V, the extension R/(q ∩ R) ⊆ V/q is algebraic. A Noetherian domain R is an AS-domain if and only if dim (R) ≤ 1. In Section 2, we study a class of R-subalgebras of R[X] which share many spectral properties with the polynomial ring R[X] and which...
On a lifting problem for principal Dedekind domains
Paolo Valabrega (1974)
Rendiconti del Seminario Matematico della Università di Padova
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Finite dimensional rings of quotients.
H. Leroy Hutson (1993)
Publicacions Matemàtiques
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In this paper we characterize commutative rings with finite dimensional classical ring of quotients. To illustrate the diversity of behavior of these rings we examine the case of local rings and FPF rings. Our results extend earlier work on rings with zero-dimensional rings of quotients.
Commutative rings with homomorphic power functions.
Dobbs, David E., Kiltinen, John O., Orndorff, Bobby J. (1992)
International Journal of Mathematics and Mathematical Sciences
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Remarks on the elementary theories of formal and convergent power series
Joseph Becker, Leonard Lipshitz (1980)
Fundamenta Mathematicae
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Universal mapping properties of some pseudovaluation domains and related quasilocal domains.
Ayache, Ahmed, Dobbs, David E., Echi, Othman (2006)
International Journal of Mathematics and Mathematical Sciences
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The First Isomorphism Theorem and Other Properties of Rings
Artur Korniłowicz, Christoph Schwarzweller (2014)
Formalized Mathematics
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Different properties of rings and fields are discussed [12], [41] and [17]. We introduce ring homomorphisms, their kernels and images, and prove the First Isomorphism Theorem, namely that for a homomorphism f : R → S we have R/ker(f) ≅ Im(f). Then we define prime and irreducible elements and show that every principal ideal domain is factorial. Finally we show that polynomial rings over fields are Euclidean and hence also factorial
Commutative rings whose principal ideals are annihilators
Camillo, Victor P. (1989)
Portugaliae mathematica
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The covering of rings by valuation rings
Ján Mináč (1982)
Mathematica Slovaca
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