User contributions for Mdibah

3 November 2015

• 20:0420:04, 3 November 2015 diff hist +2‎ m Sequentially Compact Metric Space is Lindelöf ‎No edit summary
• 20:0220:02, 3 November 2015 diff hist +8‎ m Sequentially Compact Metric Space is Lindelöf ‎No edit summary

15 October 2014

• 21:1521:15, 15 October 2014 diff hist 0‎ m Definition:Conjugate Exponents/General Definition ‎ →‎Definition
• 00:2200:22, 15 October 2014 diff hist +438‎ N Definition:Conjugate Exponents ‎ Created page with "==Definition== Let $1 \leq p, q \leq \infty$. Then $p$ and $q$ are '''conjugate exponents''' if: :$\displaystyle \dfrac 1 p + \dfrac 1 q =1$ ===Alternate Definition=== L..."
• 00:1700:17, 15 October 2014 diff hist 0‎ m Young's Inequality for Convolutions ‎ →‎Proof
• 00:1600:16, 15 October 2014 diff hist +35‎ Young's Inequality for Convolutions ‎ →‎Proof
• 00:1300:13, 15 October 2014 diff hist +205‎ Young's Inequality for Convolutions ‎ →‎Proof

14 October 2014

• 23:5223:52, 14 October 2014 diff hist +125‎ Definition:Supremum Seminorm ‎No edit summary
• 23:4723:47, 14 October 2014 diff hist +642‎ N Definition:Supremum Seminorm ‎ Created page with "==Definition== Let $(X, \Sigma, \mu)$ be a measure space. Let $f: X \to \R$. The '''supremum seminorm''' of $f$, commonly denoted as $\Vert f \..."
• 23:2523:25, 14 October 2014 diff hist +294‎ N Definition:Essentially Bounded Function ‎ Created page with "==Definition== Let $(X, \Sigma, \mu)$ be a measure space. Let $L^\infty $ be the associated Lebesgue $\infty$-space. Then any $f \in..."
• 23:1123:11, 14 October 2014 diff hist +41‎ Definition:Convolution of Measurable Functions ‎ →‎Also see
• 23:0923:09, 14 October 2014 diff hist +59‎ m Talk:Young's Inequality for Convolutions ‎No edit summary
• 23:0823:08, 14 October 2014 diff hist +1,014‎ Talk:Young's Inequality for Convolutions ‎ →‎Infinity Cases, chance of error: new section
• 22:4922:49, 14 October 2014 diff hist −170‎ m Talk:Young's Inequality for Convolutions ‎No edit summary
• 22:4222:42, 14 October 2014 diff hist +541‎ Talk:Young's Inequality for Convolutions ‎No edit summary
• 22:3522:35, 14 October 2014 diff hist +827‎ Young's Inequality for Convolutions ‎ →‎Proof: Altered coding in the proof to better fit House Style (hopefully...)
• 22:0522:05, 14 October 2014 diff hist +7‎ m Young's Inequality for Convolutions ‎ →‎Proof
• 21:4421:44, 14 October 2014 diff hist −105‎ m Young's Inequality for Convolutions ‎ The "old" statement has been moved to a corollary, with the current statement of the theorem being the most general.
• 21:3921:39, 14 October 2014 diff hist +698‎ N Young's Inequality for Convolutions/Corollary 1 ‎ Created page with "== Corollary to Young's Inequality for Convolutions == <onlyinclude> Let $f: \R^n \to \R$ be a Lebesgue integrable function. L..."
• 21:2421:24, 14 October 2014 diff hist +125‎ m Young's Inequality for Convolutions ‎ →‎Theorem: Prepping to add second corollary
• 21:1721:17, 14 October 2014 diff hist +50‎ Talk:Young's Inequality for Convolutions ‎No edit summary
• 21:0621:06, 14 October 2014 diff hist +299‎ Talk:Young's Inequality for Convolutions ‎No edit summary
• 20:5320:53, 14 October 2014 diff hist +53‎ m Young's Inequality for Convolutions/Corollary 2 ‎ →‎Corollary to Young's Inequality for Convolutions
• 20:5120:51, 14 October 2014 diff hist +7‎ Young's Inequality for Convolutions/Corollary 2 ‎ →‎Proof
• 20:5020:50, 14 October 2014 diff hist +1‎ m Young's Inequality for Convolutions ‎ →‎Theorem
• 20:4420:44, 14 October 2014 diff hist −3‎ m Young's Inequality for Convolutions ‎ →‎Proof
• 20:4220:42, 14 October 2014 diff hist +556‎ m Young's Inequality for Convolutions ‎ →‎Proof: changing | to \vert, etc
• 20:2020:20, 14 October 2014 diff hist −2‎ m Young's Inequality for Convolutions ‎ →‎Theorem
• 20:1920:19, 14 October 2014 diff hist −358‎ Young's Inequality for Convolutions ‎ →‎Theorem
• 20:0620:06, 14 October 2014 diff hist +162‎ m Talk:Young's Inequality for Convolutions ‎No edit summary
• 20:0320:03, 14 October 2014 diff hist +1,155‎ N Talk:Young's Inequality for Convolutions ‎ Created page with "{{explain|Is it not also necessary to specify that $f$ and $g$ to be Lebesgue $p$-integrable? Or is it more accurate to state that..."
• 01:4501:45, 14 October 2014 diff hist +28‎ m Young's Inequality for Convolutions ‎ →‎Theorem
• 01:4001:40, 14 October 2014 diff hist +13‎ m Young's Inequality for Convolutions ‎ →‎Proof
• 01:2101:21, 14 October 2014 diff hist +36‎ Young's Inequality for Convolutions ‎ →‎Proof
• 01:1501:15, 14 October 2014 diff hist +27‎ Mathematician:Otto Ludwig Hölder ‎ →‎Theorems and Definitions
• 01:1101:11, 14 October 2014 diff hist +76‎ Young's Inequality for Convolutions ‎ →‎Theorem
• 01:0401:04, 14 October 2014 diff hist −117‎ Young's Inequality for Convolutions ‎ →‎Theorem
• 00:5700:57, 14 October 2014 diff hist +3,279‎ Young's Inequality for Convolutions ‎ →‎Proof