Continuous embedding: Difference between revisions

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Line 7: :<math>i : X \hookrightarrow Y : x \mapsto x</math> is continuous, i.e. if there exists a constant ''C'' ≥> 0 such that :<math>\\| x \\|_Y \leq C \\| x \\|_X</math> for every ''x'' in ''X'', then ''X'' is said to be '''continuously embedded''' in ''Y''. Some authors use the hooked arrow ~~“~~"↪~~”~~" to denote a continuous embedding, i.e. ~~“~~"''X'' ↪ ''Y''~~”~~" means ~~“~~"''X'' and ''Y'' are normed spaces with ''X'' continuously embedded in ''Y''~~”~~". This is a consistent use of notation from the point of view of the [[category of topological vector spaces]], in which the [[morphism]]s (~~“~~"arrows~~”~~") are the [[continuous linear map]]s. ==Examples== Line 35: ::<math>f_n (x) = \begin{cases} - n^2 x + n , & 0 \leq x \leq \tfrac 1 n; \\ 0, & \text{otherwise.} \end{cases}</math> :Then, for every ''n'', \|\|''f''<sub>''n''</sub>\|\|<sub>''Y''</sub> = \|\|''f''<sub>''n''</sub>\|\|<sub>~~∞~~∞</sub> = ''n'', but ::<math>\\| f_n \\|_{L^1} = \int_0^1 \| f_n (x) \| \, \mathrm{d} x = \frac1{2}.</math> Line 47: ==References== * {{cite book \|author1=~~Rennardy~~Renardy, M. \|author2= Rogers, R.C. \|~~last~~name-~~author~~list-~~amp~~style=~~yes~~amp \| title=An Introduction to Partial Differential Equations \| publisher=Springer-Verlag, Berlin \| year=1992 \| isbn=3-540-97952-2 }} [[Category:Functional analysis]]