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- # (symmetry) <math>d(x,y)=d(y,x)</math> ...16 KB (2,826 words) - 09:32, 24 October 2022
- # (symmetry) <math>d(x,y)=d(y,x)</math> ...16 KB (2,826 words) - 07:51, 21 October 2023
- # (symmetry) <math>d(x,y)=d(y,x)</math> ...16 KB (2,826 words) - 06:50, 11 October 2020
- ...e helpful to construct an artificial quantum system that breaks the parity symmetry and that can be prepared in a superposition of two chiral states. Here we r ...24 KB (1,651 words) - 02:56, 12 March 2024
- Due to the symmetry. All <math>X_i</math> have the same distribution. ...21 KB (3,854 words) - 09:28, 16 September 2020
- Due to the symmetry. All <math>X_i</math> have the same distribution. ...21 KB (3,854 words) - 05:30, 20 September 2017
- Due to the symmetry. All <math>X_i</math> have the same distribution. ...21 KB (3,854 words) - 09:32, 16 September 2020
- Due to the symmetry. All <math>X_i</math> have the same distribution. ...21 KB (3,854 words) - 02:21, 19 September 2018
- Due to the symmetry. All <math>X_i</math> have the same distribution. ...21 KB (3,868 words) - 05:58, 26 November 2016
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...18 KB (3,527 words) - 09:38, 14 May 2024
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...18 KB (3,527 words) - 05:10, 9 November 2016
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...18 KB (3,527 words) - 05:55, 12 November 2019
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...18 KB (3,527 words) - 08:55, 4 May 2023
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...18 KB (3,527 words) - 06:10, 22 November 2017
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...19 KB (3,541 words) - 07:47, 25 December 2015
- ...or, it holds that <math>\sum_{i=1}^dY_i^2=\|Y\|^2=1</math>. And due to the symmetry, all <math>\mathbf{E}[Y_i^2]</math>'s are equal. Thus, <math>\mathbf{E}[Y_i &\quad \text{(symmetry)}\\ ...50 KB (9,096 words) - 06:09, 8 December 2015
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...21 KB (3,921 words) - 08:23, 13 November 2010
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...21 KB (3,922 words) - 01:04, 3 November 2011
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...21 KB (3,922 words) - 10:31, 16 April 2014
- ...it guarantees the transitivity of the relation, while the reflexivity and symmetry hold directly). Graph <math>G</math> must be a complete multipartite graph ...21 KB (3,922 words) - 08:56, 20 May 2013