Differences

This shows you the differences between two versions of the page.

--- norm [2013/09/06 23:28]
nikolaj
+++ norm [2016/05/01 16:00]
nikolaj
@@ Line 1: / Line 1: @@
 ===== Norm =====
-==== Definition ====
+==== Set ====
-| @#88DDEE: $F$ ... subfield of $\mathbb{C}$ |
+| @#55CCEE: context     | @#55CCEE: $F$ ... subfield of $\mathbb{C}$ |
-| @#88DDEE: $V$ ... $F$-vector space |
+| @#55CCEE: context     | @#55CCEE: $V$ ... $F$-vector space |
+| @#FFBB00: definiendum | @#FFBB00: $p\in \mathrm{Norm}(V)$ |
-| @#FFBB00: $p\in \mathrm{Norm}(V)$ |
+| @#55EE55: postulate   | @#55EE55: $p:V\to \mathbb R $ |
+| $v,w\in V$ | |
-| @#55EE55: $p:V\to \mathbb R $ |
+| @#55EE55: postulate   | @#55EE55: $p(v+w) \le p(v)+p(w)$ |
+| @#55EE55: postulate   | @#55EE55: $p(v)=0 \implies v=0$ |
-| $v,w\in V$ |
+| $\lambda\in F$ | |
+| @#55EE55: postulate   | @#55EE55: $p(\lambda\cdot v) = |\lambda|\cdot p(v)$ |
-| @#55EE55: $p(v+w) \le p(v)+p(w)$ |
-| @#55EE55: $p(v)=0 \implies v=0$ |
-| $\lambda\in F$ |
-| @#55EE55: $p(\lambda\cdot v) = |\lambda|\cdot p(v)$ |
 ==== Discussion ====
@@ Line 21: / Line 15: @@
 The last axiom $\ p(v)=0 \implies v=0\ $ isn't part of [[seminorm]].
 === Reference ===
 Wikipedia: [[http://en.wikipedia.org/wiki/Norm_%28mathematics%29|Norm]]