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Difference between revisions of "User:Maximilian Janisch/latexlist/latex/NoNroff/69"

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36. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120080/q12008084.png ; $\mathsf{E} [ T ( x ) ] _ { \operatorname{PS} }$ ; confidence 0.284
 
36. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120080/q12008084.png ; $\mathsf{E} [ T ( x ) ] _ { \operatorname{PS} }$ ; confidence 0.284
  
37. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120080/a12008056.png ; $a ( t ; u , v ) = \langle \mathcal{A} ( t ) u , v \rangle _ { \langle H ^ { 1 } \rangle^ { \prime }  \times H ^ { 1 }}$ ; confidence 0.284
+
37. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120080/a12008056.png ; $a ( t ; u , v ) = \langle \mathcal{A} ( t ) u , v \rangle _ { (H^1)^ { \prime }  \times H^1}$ ; confidence 0.284
  
 
38. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180419.png ; $\tilde { g } | _ { N } = g$ ; confidence 0.284
 
38. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180419.png ; $\tilde { g } | _ { N } = g$ ; confidence 0.284
Line 126: Line 126:
 
63. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120280/a12028076.png ; $\mathcal{L} _ { w } ( \mathcal{X} , \mathcal{Y} )_{*}$ ; confidence 0.282
 
63. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120280/a12028076.png ; $\mathcal{L} _ { w } ( \mathcal{X} , \mathcal{Y} )_{*}$ ; confidence 0.282
  
64. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130250/m13025097.png ; $T _ { v }$ ; confidence 0.282
+
64. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130250/m13025097.png ; $T_\nu$ ; confidence 0.282
  
 
65. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010172.png ; $a \in \mathbf{C} ^ { n } \backslash \{ 0 \}$ ; confidence 0.282
 
65. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010172.png ; $a \in \mathbf{C} ^ { n } \backslash \{ 0 \}$ ; confidence 0.282
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67. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120200/t120200160.png ; $\kappa \leq | \operatorname { arc } z _ { j } | \leq \pi$ ; confidence 0.282
 
67. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120200/t120200160.png ; $\kappa \leq | \operatorname { arc } z _ { j } | \leq \pi$ ; confidence 0.282
  
68. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040450.png ; $\mathcal{D} ( \mathsf{K} ) = \langle \textbf{F m} , \vDash _ { \mathsf{K} } \rangle$ ; confidence 0.282
+
68. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040450.png ; $\mathcal D(\mathsf K) = \langle \textbf{F m} , \vDash_{\mathcal K} \rangle$ ; confidence 0.282
  
 
69. https://www.encyclopediaofmath.org/legacyimages/p/p130/p130130/p13013075.png ; $\operatorname { dim } T _ { \lambda } = 2 ^ { [ ( n - r ( \lambda ) ) / 2 ] } \frac { n ! } { \prod _ { ( i , j ) } b _ { i j } },$ ; confidence 0.281
 
69. https://www.encyclopediaofmath.org/legacyimages/p/p130/p130130/p13013075.png ; $\operatorname { dim } T _ { \lambda } = 2 ^ { [ ( n - r ( \lambda ) ) / 2 ] } \frac { n ! } { \prod _ { ( i , j ) } b _ { i j } },$ ; confidence 0.281

Revision as of 13:10, 25 May 2020

List

1. p13007048.png ; $u ( z _ { 1 } , z _ { 2 } ) = \left\{ \begin{array} { c l } { 0 } & { \text { if } | z _ { 1 } | ^ { 2 } , | z _ { 2 } | ^ { 2 } < \frac { 1 } { 2 } } ,\\ { \operatorname { max } \left\{ \left( | z _ { 1 } | ^ { 2 } - \frac { 1 } { 2 } \right) ^ { 2 } \right. }, & { \left. \left( | z _ { 2 } | ^ { 2 } - \frac { 1 } { 2 } \right) ^ { 2 } \right\} } \\ { \text { elsewhere on } D, } \end{array} \right. $ ; confidence 0.287

2. d03055021.png ; $I_i$ ; confidence 0.287

3. c02289095.png ; $B _ { m }$ ; confidence 0.287

4. c120180377.png ; $\tilde { g } | _ { M } = g$ ; confidence 0.287

5. a13023034.png ; $\| f _ { \operatorname{l} } - P _ { U \cap V } f \| \leq c ^ { 2 \operatorname{l} - 1 } \| f \|$ ; confidence 0.287

6. a120260120.png ; $A ( X _ { 1 } , \dots , X _ { n } )$ ; confidence 0.287

7. j13002045.png ; $\mathsf{P} ( X = 0 ) \leq e ^ { - \Omega ( 1 / ( n p ^ { 2 } ) ) }$ ; confidence 0.287

8. a130180116.png ; $\operatorname { c }_{0} ( R ) = U \times \operatorname { Rng } ( R )$ ; confidence 0.287

9. h120120166.png ; $F \Psi ^ { q }$ ; confidence 0.287

10. b1303007.png ; $F _ { m } ^ { n }$ ; confidence 0.286

11. s12023094.png ; $X = B U \Rightarrow A : = B$ ; confidence 0.286

12. b13006027.png ; $v _ { 1 } , \dots , v _ { n }$ ; confidence 0.286

13. e12014015.png ; $\langle A , \tilde { f } \rangle _ { f \in \Phi },$ ; confidence 0.286

14. w12009097.png ; $\mathfrak{S}_r$ ; confidence 0.286

15. s13063022.png ; $m _ { 1 } , \dots , m _ { r }$ ; confidence 0.286

16. a13022063.png ; $\rightarrow \square _ { R } \text { Mod } ( ? , C ) \rightarrow S _ { C } \rightarrow 0.$ ; confidence 0.286

17. s13049063.png ; $| N _ { k } | ^ { 2 } \geq | N _ { k - 1} | | N _ { k + 1}|$ ; confidence 0.285

18. b1302908.png ; $\operatorname{l} _ { A } ( M / \mathfrak{q}M ) - e _ { \mathfrak{q} } ^ { 0 } ( M )$ ; confidence 0.285

19. f12024062.png ; $f ( t , \psi ) \in \mathbf{R} ^ { n }$ ; confidence 0.285

20. b12032062.png ; $s\leq s_ 1$ ; confidence 0.285

21. s13058031.png ; $\varepsilon _ { l } - \varepsilon _ { r }$ ; confidence 0.285

22. p12017098.png ; $\mathcal{A} x = a x - x c$ ; confidence 0.285

23. t12007062.png ; $Q _ { m , j_g }$ ; confidence 0.285

24. a13018094.png ; $\textbf{Alg} _ { \vdash } ( \mathcal{L} )$ ; confidence 0.285

25. w12011044.png ; $\alpha ^ { w } = \int _ { \mathbf{R} ^ { 2 n } } a ( X ) 2 ^ { n } \sigma _ { X } d X =$ ; confidence 0.285

26. a130040386.png ; $\mathcal{F} \subseteq \operatorname{Fi} _ { \mathcal{D} } \mathbf{A}$ ; confidence 0.285

27. d13006059.png ; $A = B ^ { \uparrow X _ { 1 } , \ldots , X _ { n } }$ ; confidence 0.284

28. l12020012.png ; $\mathbf{Z} / 2$ ; confidence 0.284

29. a11004048.png ; $d _ { 2 }$ ; confidence 0.284

30. t13009017.png ; $a \in T _ { X } \cap T _ { Y }$ ; confidence 0.284

31. w12005058.png ; $h ^ { \alpha } = h _ { 1 } ^ { \alpha _ { 1 } } \ldots h _ { m } ^ { \alpha _ { m } }$ ; confidence 0.284

32. a13013031.png ; $( \partial / \partial t _ { n } ) - Q _ { 0 } z ^ { n }$ ; confidence 0.284

33. p12015022.png ; $\mathbf{C}^n$ ; confidence 0.284

34. j120020204.png ; $\int _ { I } | \varphi - \varphi _ { I } | ^ { 2 } \frac { d \vartheta } { 2 \pi } \leq c _ { 1 } ^ { 2 } | I |,$ ; confidence 0.284

35. k12011014.png ; $($ ; confidence 0.284

36. q12008084.png ; $\mathsf{E} [ T ( x ) ] _ { \operatorname{PS} }$ ; confidence 0.284

37. a12008056.png ; $a ( t ; u , v ) = \langle \mathcal{A} ( t ) u , v \rangle _ { (H^1)^ { \prime } \times H^1}$ ; confidence 0.284

38. c120180419.png ; $\tilde { g } | _ { N } = g$ ; confidence 0.284

39. c120300125.png ; $O _ { n }$ ; confidence 0.284

40. l12004057.png ; $u _ { i + 1 / 2} ( x , ( 1 / 2 ) \Delta t )$ ; confidence 0.283

41. f13028017.png ; $\tilde{\mathbf{c}}$ ; confidence 0.283

42. a13022029.png ; $\tilde { j } f = j$ ; confidence 0.283

43. l12004040.png ; $c = a \frac { \Delta t } { \Delta x },$ ; confidence 0.283

44. w12007029.png ; $\xi a $ ; confidence 0.283

45. c13016087.png ; $\text{NSPACE} [ s ( n ) ] = \text { co } \text{NSPACE} [ s ( n ) ]$ ; confidence 0.283

46. a130040745.png ; $\Sigma ( P , R ) \subseteq \operatorname{Fm}_{ P \cup R}$ ; confidence 0.283

47. a13004059.png ; $\textbf{Fm}$ ; confidence 0.283

48. i1300804.png ; $L _ { 1 } ^ { \prime }$ ; confidence 0.283

49. o13003045.png ; $X = \sum _ { j = 1 } ^ { 8 } X _ { j } e_j$ ; confidence 0.283

50. k055840177.png ; $\mathcal{E} ^ { \prime \prime }_\lambda$ ; confidence 0.283

51. s12032090.png ; $\langle t ^ { * } ( n ^ { * } ) , m \rangle = ( - 1 ) ^ { p ( t ) p ( n ^ { * } ) } \langle n ^ { * } , t ( m ) \rangle.$ ; confidence 0.283

52. z13001038.png ; $x ( n ) = \sum ( \text { residues of } z ^ { n - 1 } \tilde{x}(z) )$ ; confidence 0.283

53. b01697020.png ; $i = 1 , \dots , s$ ; confidence 0.282

54. l12001050.png ; $\left( \begin{array} { c } { m } \\ { \lceil \frac { m + 1 } { 2 } \rceil } \end{array} \right).$ ; confidence 0.282

55. c12028019.png ; $\pi X_{*} $ ; confidence 0.282

56. s12032052.png ; $\mathcal{U} ( L ) = \mathcal{T} ( L ) / \left( x \bigotimes y - ( - 1 ) ^ { p ( x ) p ( y ) } y \bigotimes x - [ x , y ] \right).$ ; confidence 0.282

57. c120170107.png ; $\mathbf{C} [ z , \overline{z} ] / N$ ; confidence 0.282

58. t13013084.png ; $\operatorname{Ext} ^ { 2 } ( ., . )$ ; confidence 0.282

59. l11001071.png ; $\mathbf{P} ^ { + } . P \subseteq P$ ; confidence 0.282

60. m12013061.png ; $\delta_{( 2 )} > K _ { ( 2 ) } / K _ { ( 1 ) }$ ; confidence 0.282

61. a01138088.png ; $u_1$ ; confidence 0.282

62. a130040723.png ; $P ^ { \prime }$ ; confidence 0.282

63. a12028076.png ; $\mathcal{L} _ { w } ( \mathcal{X} , \mathcal{Y} )_{*}$ ; confidence 0.282

64. m13025097.png ; $T_\nu$ ; confidence 0.282

65. c120010172.png ; $a \in \mathbf{C} ^ { n } \backslash \{ 0 \}$ ; confidence 0.282

66. z13012044.png ; $W ^ { r} H ^ { \omega } [ 0,1 ]$ ; confidence 0.282

67. t120200160.png ; $\kappa \leq | \operatorname { arc } z _ { j } | \leq \pi$ ; confidence 0.282

68. a130040450.png ; $\mathcal D(\mathsf K) = \langle \textbf{F m} , \vDash_{\mathcal K} \rangle$ ; confidence 0.282

69. p13013075.png ; $\operatorname { dim } T _ { \lambda } = 2 ^ { [ ( n - r ( \lambda ) ) / 2 ] } \frac { n ! } { \prod _ { ( i , j ) } b _ { i j } },$ ; confidence 0.281

70. p12011035.png ; $G$ ; confidence 0.281

71. p12015015.png ; $P f ( g ) = \left( \int _ { g K } f d \mu \right) _ { K \in \mathcal{K} } , g \in G,$ ; confidence 0.281

72. a13018014.png ; $\operatorname{Voc}_\mathcal{L}$ ; confidence 0.281

73. p12015060.png ; $c$ ; confidence 0.281

74. m06222021.png ; $F = 0 , d F = 0 , \dots , d ^ { m } F = 0$ ; confidence 0.281

75. n12003028.png ; $L A$ ; confidence 0.281

76. a130240196.png ; $\widehat { \psi }$ ; confidence 0.281

77. g12005010.png ; $\psi = \psi _ { 0 } + f ( y ) e ^ { i \langle k , x \rangle + \mu t }$ ; confidence 0.281

78. i13007024.png ; $q \in Q _ { m } : = \left\{ \begin{array} { c } { q = \overline { q } }, \\ { q : | q ( x ) | + | \nabla ^ { m } q | \leq c ( 1 + | x | ) ^ { - b } }, \\ { b > 3 } \end{array} \right\},$ ; confidence 0.281

79. v13011018.png ; $\Gamma = \Delta \overset{\rightharpoonup}{ U } . \overset{\rightharpoonup}{l}$ ; unknown symbol

80. m12021028.png ; $t \in \mathbf{E} ^ { n }$ ; confidence 0.281

81. c022850102.png ; $AN$ ; confidence 0.281

82. a130050185.png ; $\zeta _ { A } ( z ) = \prod _ {\substack{ r \geq 1 \\ \text{primes} p \in \mathbf{N}}} \quad ( 1 - p ^ { - r z } ) ^ { - 1 } = \prod _ { r = 1 } ^ { \infty } \zeta ( r z ),$ ; confidence 0.281

83. d03167011.png ; $\sigma | _ { A }$ ; confidence 0.281

84. a13030065.png ; $\{ a \in A : a . \mathfrak{S} ( T ) = \mathfrak{S} ( T ) , a = \{ 0 \} \}$ ; confidence 0.281

85. m130250104.png ; $u v - ( T _ { u } v + T _ { v } u ) \in H ^ { r } ( \mathbf{R} ^ { n } )$ ; confidence 0.281

86. o13008015.png ; $\{ \operatorname{l}_{1}, \operatorname{l}_{2} \}$ ; confidence 0.280

87. r13008070.png ; $\{ h ( t , p _ { j } ) \} _ { 1 \leq j \leq n}$ ; confidence 0.280

88. b1300901.png ; $u _ { t } + u _ { x } + u u _ { x } - u _ { xxt } = 0,$ ; confidence 0.280

89. h13005018.png ; $\{ \lambda _ { n } = - \kappa _ { n } ^ { 2 } \} _ { n = 1 } ^ { N }$ ; confidence 0.280

90. j120020113.png ; $\mathsf{P} \left[ \operatorname { sup } _ { t \geq T } | X _ { t } - X _ { T } | > \lambda \right] \leq C e^ { - \lambda / e } \mathsf{P} [ T < \infty ]$ ; confidence 0.280

91. w12005037.png ; $A = \mathbf{R} [ x _ { 1 } , \dots , x _ { n } ] / \mathcal{A}$ ; confidence 0.280

92. b11084037.png ; $z ^ { * }$ ; confidence 0.280

93. l12017064.png ; $\mathcal{Q} = \langle a _ { 1 } , \dots , a _ { g } | S _ { 1 } , \dots , S _ { n } \rangle$ ; confidence 0.280

94. b12040086.png ; $p \in \mathfrak { h } ^ { * }$ ; confidence 0.280

95. j1300101.png ; $Q _ { D } ( v , z ) = z ^ { \operatorname { com } ( D ) - 1 } v ^ { - \operatorname { Tait } ( D ) } ( v ^ { - 1 } - v ) P _ { D } ( v , z ),$ ; confidence 0.280

96. h0480703.png ; $p ( x ) = \frac { \Gamma ( ( n + 1 ) / 2 ) x ^ { k / 2 - 1 } ( 1 + x / n ) ^{- ( n + 1 ) / 2 }} { \Gamma ( ( n - k + 1 ) / 2 ) \Gamma ( k / 2 ) n ^ { k / 2 } },$ ; confidence 0.280

97. c02211020.png ; $x \in \mathbf{R} ^ { 1 }$ ; confidence 0.280

98. r13008045.png ; $| f ( z _ { 0 } ) | ^ { 2 } \leq \frac { 1 } { \pi r ^ { 2 } } \int _ { D _ { z _ { 0 } , r } } | f ( \zeta ) | ^ { 2 } d x d y \leq \frac { 1 } { \pi r ^ { 2 } } ( f , f ) _ { L^2(D) }.$ ; confidence 0.280

99. c120080105.png ; $x _ { i j } \in \mathbf{R} ^ { n }$ ; confidence 0.279

100. b120430115.png ; $\Delta \left( \begin{array} { c c } { \alpha } & { \beta } \\ { \gamma } & { \delta } \end{array} \right) = \left( \begin{array} { c c } { \alpha } & { \beta } \\ { \gamma } & { \delta } \end{array} \right) \bigotimes \left( \begin{array} { c c } { \alpha } & { \beta } \\ { \gamma } & { \delta } \end{array} \right),$ ; confidence 0.279

101. b13012097.png ; $\omega ( g , .)_p$ ; confidence 0.279

102. e120230116.png ; $\omega ^ { a}$ ; confidence 0.279

103. c023530161.png ; $\dot{X}$ ; confidence 0.279

104. e12021046.png ; $p _ { m + 1} ( x ) = ( m x + 1 ) p _ { m } ( x ) - x ( x - 1 ) p _ { m } ^ { \prime } ( x ) , \quad m \geq 1.$ ; confidence 0.279

105. m13014089.png ; $\mathcal{D} _ { j , k } ( a ) = \{ z : b _ { j } ^ { 1 } | z _ { 1 } - a _ { 1 } | ^ { 2 } + \ldots + b _ { j } ^ { n } | z _ { n } - a _ { n } | ^ { 2 } < r _ { j , k } ^ { 2 } \},$ ; confidence 0.279

106. c022030101.png ; $\gamma _ { i }$ ; confidence 0.279

107. e1300205.png ; $( u_j )_{ j \in \mathbf{N}}$ ; confidence 0.279

108. c02313032.png ; $d _n$ ; confidence 0.279

109. s13065020.png ; $\Phi _ { n } ^ { * }$ ; confidence 0.279

110. q12001072.png ; $C ^ { o } \neq \emptyset$ ; confidence 0.279

111. l05700089.png ; $\textbf{Plus}\equiv \lambda pqf x . p f ( q f x )$ ; confidence 0.279

112. w12006047.png ; $J ^ { r_0 } ( \mathbf{R} ^ { n } , M )$ ; confidence 0.279

113. b12046047.png ; $\chi _ { f }$ ; confidence 0.279

114. l120170120.png ; $K ^ { \prime 2 } \times I \searrow \operatorname{pt}$ ; confidence 0.278

115. c13021012.png ; $( a | b ) * b = a$ ; confidence 0.278

116. i12004050.png ; $K ( s ) = \frac { ( n - 1 ) ! } { ( 2 \pi i ) ^ { n } } \frac { 1 } { \langle s , \zeta - z \rangle ^ { n } } \times$ ; confidence 0.278

117. q12007037.png ; $k ( E , F , g , g ^ { - 1 } )$ ; confidence 0.278

118. b11022099.png ; $H _ { \mathcal{D} } ^ { i} ( X _ { / \mathbf{R} } , A ( j ) )$ ; confidence 0.278

119. c12002019.png ; $0 \neq \mathfrak { c } _ { u , v} < \infty$ ; confidence 0.278

120. a130040685.png ; $x \in X$ ; confidence 0.278

121. f12023057.png ; $[ ., . ] ^ { \wedge }$ ; confidence 0.278

122. d120230135.png ; $F = Z \oplus Z$ ; confidence 0.278

123. q1200202.png ; $\mathcal{A} = \operatorname { Fun } _ { q } ( \operatorname{SL} ( n , \mathbf{C} ) )$ ; confidence 0.278

124. e12001073.png ; $\mathcal{S} = \mathcal{M} \circ e$ ; confidence 0.278

125. l120120139.png ; $G ( K ) ^ { e }$ ; confidence 0.278

126. s13058029.png ; $\xi _ { l } ^ { 0 }$ ; confidence 0.278

127. q120070136.png ; $\mathcal{R} ( t ^ { i } \square_{j} \bigotimes t ^ { k } \square_{l} ) = \mathbf{R} ^ { i } \square_ j \square ^ { k } \square_{l} ,$ ; confidence 0.278

128. b12003013.png ; $A \| f \| _ { 2 } ^ { 2 } \leq \sum _ { n \in \mathbf Z } \sum _ { m \in \mathbf Z } |\langle f , g _ { n , m} \rangle | ^ { 2 } \leq B \| f \| _ { 2 } ^ { 2 }.$ ; confidence 0.277

129. a12018029.png ; $T _ { n }$ ; confidence 0.277

130. f0410009.png ; $c _ { m}$ ; confidence 0.277

131. p07534060.png ; $A _ { 2n }$ ; confidence 0.277

132. s12005050.png ; $A = P T | _ { \mathfrak { H } }$ ; confidence 0.277

133. r13007066.png ; $f ( x ) : = \sum _ { j = 1 } ^ { J } K ( x , y_j ) c_j , c_j =\text{const.}$ ; confidence 0.277

134. n067520226.png ; $C \in \operatorname{GL} _ { n } ( K )$ ; confidence 0.277

135. a0104203.png ; $n = 1,2 , \dots$ ; confidence 0.277

136. w120110206.png ; $G _ { X } ^ { g } = \sum _ { 1 \leq j \leq n } h _ { j } ^ { - 1 } ( | d q _ { j } | ^ { 2 } + | d p _ { j } | ^ { 2 } ).$ ; confidence 0.277

137. l120170306.png ; $X ^ { 2 \times } I$ ; confidence 0.277

138. a130240191.png ; $\mathbf{X} ^ { \prime } \mathbf{X} \widehat { \beta } = \mathbf{X} ^ { \prime } \mathbf{y} .$ ; confidence 0.277

139. l12004058.png ; $( u _ { i } ^ { n } , u _ { i + 1 } ^ { n } )$ ; confidence 0.277

140. p074160167.png ; $T _ { \alpha }$ ; confidence 0.277

141. c120010173.png ; $( a , \partial )$ ; confidence 0.277

142. b120210143.png ; $k = 1 , \dots , r = \operatorname { dim } \mathfrak{n} ^ { - }$ ; confidence 0.277

143. p07285027.png ; $H_{*}$ ; confidence 0.277

144. b1302601.png ; $f _ { 0 } , \dots , f _ { n }$ ; confidence 0.277

145. m13001052.png ; $\{ \langle x _ { 1 } , y _ { 1 } \rangle , \dots , \langle x _ { m } , y _ { m } \rangle \}$ ; confidence 0.277

146. b13020031.png ; $d_{ ii} > 0$ ; confidence 0.277

147. r13009021.png ; $\mathbf{w} \in \mathbf{R} ^ { n } \backslash \{ 0 \}$ ; confidence 0.277

148. a01225031.png ; $z = ( z_ 1 , \dots , z _ { n } )$ ; confidence 0.277

149. d0302702.png ; $p = 0 , \ldots , n ; \quad n = 0,1 , \ldots,$ ; confidence 0.277

150. h12002032.png ; $\operatorname { lim } _ { | I | \rightarrow 0 } \frac { 1 } { | I | } \int _ { I } | f - f _ { I } | d m = 0.$ ; confidence 0.276

151. d1200209.png ; $( \operatorname{L} ) v ^ { * } = \left\{ \begin{array} { l l } { \operatorname { max } } & { g ( u _ { 1 } ) } \\ { s.t. } & { u _ { 1 } \in U _ { 1 }, } \end{array} \right.$ ; confidence 0.276

152. d1201309.png ; $\operatorname{GL} ( V ) = \operatorname { Aut } _ { \mathbf{F} _ { q } } ( V )$ ; confidence 0.276

153. s08336010.png ; $J _ { n } ( z )$ ; confidence 0.276

154. r13010090.png ; $\mathbf{A} _ { n }$ ; confidence 0.276

155. f13029090.png ; $L ^ { Y }$ ; confidence 0.276

156. t120200149.png ; $| g ( k ) | \geq ( \frac { \delta } { 2 + 2 \delta } ) ^ { n - 1 } | b _ { r } z _ { r} ^ { k } |.$ ; confidence 0.276

157. f120230116.png ; $- ( - 1 ) ^ { ( q + \operatorname{l} _ { 1 } - 1 ) ( \operatorname{l} _ { 2 } - 1 ) } i ( L _ { 2 } ) \omega \bigwedge L _ { 1 } , [ \omega \bigwedge K _ { 1 } , K _ { 2 } ] = \omega \bigwedge [ K _ { 1 } , K _ { 2 } ] +$ ; confidence 0.276

158. l12013064.png ; $\operatorname{Gal}(\tilde{\mathbf{Q}_p}/\mathbf{Q}_p)$ ; confidence 0.276

159. b11022060.png ; $H _ { \mathcal{M} } ^ { \bullet } ( X , \mathbf Q ( * ) ) _ { \mathbf Z } =$ ; confidence 0.276

160. m12023074.png ; $( 0 , T ) \times \mathbf{R} ^ { n }$ ; confidence 0.276

161. a12015079.png ; $\mathfrak{g} ^ { * }$ ; confidence 0.276

162. l06003053.png ; $a \| c$ ; confidence 0.275

163. s12005096.png ; $\mathfrak{H} ( S )$ ; confidence 0.275

164. l120130106.png ; $g _ { 1 } ( a ) , \ldots , g _ { m } ( a )$ ; confidence 0.275

165. e12010044.png ; $\mathbf{t} ^ { \operatorname{em} } = \mathbf{t} ^ { \operatorname{em}.f } + ( \mathbf{P} \bigotimes \mathbf{E} ^ { \prime } - B \bigotimes \mathbf{M} ^ { \prime } + 2 ( \mathbf{M} ^ { \prime }. \mathbf{B} ) 1 ),$ ; confidence 0.275

166. a12027072.png ; $a \in K ^ { * }$ ; confidence 0.275

167. e13003012.png ; $\widetilde { \mathcal{M} }$ ; confidence 0.275

168. r08232032.png ; $J ( \rho ) = J ( \rho ; x _ { 0 } , u ) = \frac { 1 } { \sigma _ { n } ( \rho ) } \int _ { S _ { n } ( x _ { 0 } , \rho ) } u ( y ) d \sigma _ { n } ( y ),$ ; confidence 0.275

169. k1300507.png ; $\operatorname{Ma} = \frac { u } { c } , \operatorname{Re} = \frac { u l } { \nu } , \operatorname{Pr} = \frac { \nu } { \kappa }.$ ; confidence 0.275

170. a130240430.png ; $\mathbf{a} ^ { \prime } \Theta \mathbf b $ ; confidence 0.275

171. b12010039.png ; $= F _ { n } ( X _ { 1 } ( - t , x _ { 1 } , \ldots , x _ { n } ) , \ldots , X _ { n } ( - t , x _ { 1 } , \ldots , x _ { n } ) ),$ ; confidence 0.275

172. l05700091.png ; $Q \equiv \lambda p f x . p ( \lambda a b . b ( a f ) ) ( \lambda q . x ) \mathbf{I}$ ; confidence 0.275

173. a01099045.png ; $g_{ij}$ ; confidence 0.275

174. v096900227.png ; $\operatorname{I} _ { n }$ ; confidence 0.275

175. s130510135.png ; $\gamma ( v ) = \infty ( K )$ ; confidence 0.275

176. a130040516.png ; $\mathcal{C} \in \operatorname{FFi} _ { \mathcal{D} } \mathbf{A}$ ; confidence 0.275

177. p1201107.png ; $n$ ; confidence 0.275

178. a130040322.png ; $\mathsf{Q} = \operatorname { Alg } \operatorname { Mod } ^ { * S } \mathcal{D}$ ; confidence 0.274

179. a13031080.png ; $\sum _ { X } \mu ( X ) \frac { ( \operatorname { time } _ { \mathcal{A} } ( X ) ) ^ { 1 / k } } { | X | } < \infty$ ; confidence 0.274

180. w1201908.png ; $f _ { \mathbf{W} } = ( 2 \pi \hbar ) ^ { - 3 N } \psi _ { \mathbf{W} }$ ; confidence 0.274

181. a13027043.png ; $( T ( x _ { n } ) , \psi _ { j } ) = ( f , \psi _ { j } ) , j = 1 , \ldots , n.$ ; confidence 0.274

182. e120260138.png ; $\pi _ { v ^ { \prime } , p ^ { \prime } }$ ; confidence 0.274

183. a130050271.png ; $\pi _ { \mathcal{C} } ^ { \# } ( x ) \sim C x ^ { \kappa } ( \operatorname { log } x ) ^ { \nu } \text { as } x \rightarrow \infty.$ ; confidence 0.274

184. s13001020.png ; $\rho ^ { v(.) }$ ; confidence 0.274

185. s120150133.png ; $\pi _ { G \times_{ Gx } S} : G \times _ { G _ { X } } S \rightarrow ( G \times _ { Gx } S ) / / G$ ; confidence 0.274

186. s12035027.png ; $P = \operatorname { lim } _ { N \rightarrow \infty } N . \operatorname{Cov} ( \hat{\theta}_ N ) =$ ; confidence 0.274

187. c1200106.png ; $\operatorname{l} \subset \mathbf{C} ^ { n }$ ; confidence 0.274

188. i12006045.png ; $\{ \operatorname { Pred } ( x ) , x \in X _ { P } \} \cup \{ \operatorname { Pred } \operatorname { Succ } ( x ) , x \in X _ { P } \}$ ; confidence 0.274

189. l120120126.png ; $\phi ( x ) \in O^r_K$ ; confidence 0.274

190. s12017093.png ; $s = ( s _ { 1 } , \ldots , s _ { m } )$ ; confidence 0.274

191. a013010143.png ; $n_ 1$ ; confidence 0.274

192. a12008028.png ; $a ( u , v ) = ( f , v ) _ { L ^ { 2 }}$ ; confidence 0.273

193. t120200154.png ; $z _ { 1 } \dots z _ { n } \neq 0$ ; confidence 0.273

194. b13019012.png ; $a /q$ ; confidence 0.273

195. c13014010.png ; $I \in W$ ; confidence 0.273

196. m12009034.png ; $x e ^ { rx }$ ; confidence 0.273

197. s13048055.png ; $E _ { 2 } ^ { p q } = H ^ { p } ( B ) \otimes H _ { S } ^ { q } ( D _ { \pi } )$ ; confidence 0.273

198. n12010017.png ; $\operatorname { Re } \langle f ( x , y ) - f ( x , z ) , y - z \rangle \leq 0 , y , z \in \mathbf{C} ^ { n },$ ; confidence 0.273

199. a13027051.png ; $\{ x _ { n_ j } ^ { \prime } \}$ ; confidence 0.273

200. w12010011.png ; $DT$ ; confidence 0.273

201. z13008036.png ; $= \frac { ( \alpha + 1 ) _ { k + l } } { ( \alpha + 1 ) _ { k } ( \alpha + 1 ) _ { l } } z ^ { k } z ^ { l } F \left( - k , - l ; - k - l - \alpha ; \frac { 1 } { z \overline{z} } \right).$ ; confidence 0.273

202. b12006023.png ; $w ( z ) = \sum _ { k = 0 } ^ { n } a _ { k } ( z ) . f ^ { ( k ) } ( z ) + \sum _ { k = 0 } ^ { n } b _ { k } ( z ) . \overline { g ^ { ( k ) } ( z ) },$ ; confidence 0.273

203. b110220133.png ; $\operatorname{ord}_ { s = m } L ( h ^ { i } ( X ) , s ) = \operatorname { dim } H _ { \mathcal{D} } ^ { i + 1 } ( X_{ / \mathbf{R}} , \mathbf{R} ( i + 1 - m ) )$ ; confidence 0.273

204. v13006021.png ; $ \widehat{ { \mathfrak{sl}( n ) }}$ ; confidence 0.272

205. s090670103.png ; $W = \operatorname{GL} ^ { k } ( n ) / G$ ; confidence 0.272

206. i13005037.png ; $| a ( k ) | ^ { 2 } = 1 + | b ( k ) | ^ { 2 } , r _ { - } ( k ) = \frac { b ( k ) } { a ( k ) } , r _ { + } ( k ) = - \frac { b ( - k ) } { a ( k ) },$ ; confidence 0.272

207. e120260132.png ; $\pi _ { v , p } ( d \theta ) = A ( m , p ) ( L _ { \mu } ( \theta ) ) ^ { - p } \operatorname { exp } \langle \theta , v \rangle \alpha ( d \theta )$ ; confidence 0.272

208. b110220205.png ; $\operatorname { ord } _ { s = m } L ( h ^ { i } ( X ) , s ) = \operatorname { dim } _ { Q } H _ { \mathcal{M} } ^ { i + 1 } ( X , \mathbf{Q} ( m ) ) _ { \mathbf{Z} } ^ { 0 }$ ; confidence 0.272

209. c120180388.png ; $M \subset \tilde { M }$ ; confidence 0.272

210. n06663025.png ; $f _ { x _ { i } } ^ { ( r _ { i } ^ { * } ) } = \frac { \partial ^ { r _ { i } ^ { * } } f } { \partial x _ { i } ^ { r _ { i } ^ { * } } },$ ; confidence 0.272

211. d13018018.png ; $I_E$ ; confidence 0.272

212. b12027069.png ; $a ( t ) = b ( t ) + \int _ { ( 0 , t ] } a ( t - u ) d F ( u ) \text { for } t \geq 0.$ ; confidence 0.272

213. m130140104.png ; $\mathcal{D} _ { 1 } \subset \mathbf{C} ^ { n }$ ; confidence 0.272

214. c12017064.png ; $\operatorname{supp} \mu \subseteq K$ ; confidence 0.271

215. s12002012.png ; $\partial _ { x ^ \alpha} L = L _ { x _ { 1 } ^ {\alpha _ { 1}} \ldots x _ { D } ^ { \alpha _ { D } } }$ ; confidence 0.271

216. b12055027.png ; $ b _ { \gamma }$ ; confidence 0.271

217. l12007045.png ; $v _ { i ,0} $ ; confidence 0.271

218. a1202207.png ; $\| e \| \leq 1$ ; confidence 0.271

219. a1302301.png ; $P _ { U \cap V }$ ; confidence 0.271

220. h12011019.png ; $a \in \mathbf{C}$ ; confidence 0.271

221. b13019062.png ; $\overline { a } / q$ ; confidence 0.271

222. v1300504.png ; $\sum _ { n \geq - 1 } ( \operatorname { dim } V _ { n } ^ { \natural } ) q ^ { n }$ ; confidence 0.271

223. w13009040.png ; $\theta _ { n } ( h _ { 1 } \otimes \ldots \otimes h _ { n } ) = \theta _ { n } ( h _ { 1 } \otimes^\wedge \ldots \otimes^\wedge \sim h _ { n } )$ ; confidence 0.271

224. s12028035.png ; $\mathbf{E}_{*} ( | \overline { S } ( X ) | )$ ; confidence 0.270

225. j12002079.png ; $\sum _ { x \in \mathbf{N} } |c_n| \|X\|_1$ ; confidence 0.270

226. n067520380.png ; $Y ^ { Q } \equiv y _ { 1 } ^ { q _ { 1 } } \dots y _ { n } ^ { q _ { n } }$ ; confidence 0.270

227. r13005031.png ; $\alpha \mapsto a ^ { g }$ ; confidence 0.270

228. a12010032.png ; $(.)$ ; confidence 0.270

229. s12032022.png ; $B _ {{ V } \bigotimes { W }} ( x \bigotimes y ) = ( - 1 ) ^ { p ( x ) p ( y ) } ( y \bigotimes x ).$ ; confidence 0.270

230. l120120161.png ; $\operatorname{p} \in S _ { M}$ ; confidence 0.270

231. e13006059.png ; $\operatorname{CTop}/B$ ; confidence 0.270

232. f12021071.png ; $l = 0 , \dots , n _ { 2 } - 1$ ; confidence 0.270

233. w120110252.png ; $\tilde { g } _ { X } = H ( X ) ^ { - 1 } \tilde { h } ( X ) G _ { X } ( T )$ ; confidence 0.270

234. j12001031.png ; $\mathbf{C} ( F ) \subset \mathbf{C} ( X )$ ; confidence 0.270

235. c12007019.png ; $C ^ { n } ( \mathcal{C} , M ) \rightarrow M( \operatorname{ codom } \alpha_n$ ; confidence 0.270

236. s13040037.png ; $X \times_ { G } E G = ( X \times E G ) / G$ ; confidence 0.270

237. s13041010.png ; $\| p \| _ { s } ^ { 2 } = \sum _ { i = 0 } ^ { N } \lambda _ { i } \int _ { \mathbf{R} } | p ^ { ( i ) } ( t ) | ^ { 2 } d \mu _ { i } = \sum _ { i = 0 } ^ { N } \lambda _ { i } \| p ^ { ( i ) } ( t ) \| _ { \mu _ { i } } ^ { 2 }.$ ; confidence 0.270

238. d120280140.png ; $g _ { u } = \sum _ { k = 1 } ^ { n } ( - 1 ) ^ { k - 1 } \frac { \partial u } { \partial z _ { k } } d \bar{z} [ k ] \wedge d z,$ ; confidence 0.270

239. a120270111.png ; $\{ a _ { j } ^ { g } : j = 1 , \dots , [ K : Q ] , g \in G \}$ ; confidence 0.270

240. f1300509.png ; $\sum _ { i = 1 } ^ { m } \| p _ { i } - x \| = c ( a \text { constant } ),$ ; confidence 0.270

241. l12015010.png ; $\operatorname{ad} _ { a } = [ a ,. ]$ ; confidence 0.270

242. m13014036.png ; $r _ { 1 } / r _ { 2 } \notin H _ { n}$ ; confidence 0.269

243. c13019061.png ; $S ^ { l - 1 }$ ; confidence 0.269

244. a13006059.png ; $G _ { R } ^ { \# } ( n ) = A _ { R } q ^ { n } + O ( 1 ) \text { as } n \rightarrow \infty,$ ; confidence 0.269

245. t13013019.png ; $\Gamma ^ { \operatorname{op} }$ ; confidence 0.269

246. f12019010.png ; $N = \{ G \backslash ( \bigcup _ { x \in G } x ^ { - 1 } H x ) \} \bigcup \{ 1 \}$ ; confidence 0.269

247. s12027021.png ; $y _ { 1 , m} < \ldots < y _ { m , m }$ ; confidence 0.269

248. m06262078.png ; $l \times l$ ; confidence 0.269

249. c02211035.png ; $X ^ { 2 } ( \theta ) = \sum _ { i = 1 } ^ { k } \frac { [ \nu _ { i } - n p _ { i } ( \theta ) ] ^ { 2 } } { n p _ { i } ( \theta ) }$ ; confidence 0.269

250. e12010030.png ; $q_f$ ; confidence 0.268

251. c12017024.png ; $K _ { R } \equiv \{ x \in \mathbf{R} ^ { n } : r_j ( x ) \geq 0 , j = 1 , \ldots , m \}$ ; confidence 0.268

252. k05584054.png ; $( \mathcal{H} , ( .,. ) )$ ; confidence 0.268

253. w120110177.png ; $b = b _ { m } + b _ { m - 1} + \ldots$ ; confidence 0.268

254. m13014018.png ; $J _ { k }$ ; confidence 0.268

255. b0154509.png ; $\{ x_k \}$ ; confidence 0.268

256. h13013012.png ; $\mathbf{T} ^ { n }$ ; confidence 0.268

257. t13014046.png ; $q_Q$ ; confidence 0.268

258. o11001035.png ; $e \notin S ( a _ { 1 } , \dots , a _ { n } )$ ; confidence 0.268

259. l12012079.png ; $K _ { \operatorname{tot} S } = \bigcap _ { \operatorname{p} \in S } \bigcap _ { \sigma \in G ( K ) } K _ { \operatorname{p} } ^ { \sigma }$ ; confidence 0.268

260. b120430146.png ; $B \in \square _ { H } ^ { H } \mathcal{M}$ ; confidence 0.268

261. b110220158.png ; $H _ { \mathcal{M} } ^ { i } ( X , \mathbf{Q} ( j ) )$ ; confidence 0.268

262. a01245047.png ; $b_{1}$ ; confidence 0.267

263. m13007037.png ; $A ^ { \text { in/out } } ( f )$ ; confidence 0.267

264. w12005033.png ; $N / N ^ { 2 }$ ; confidence 0.267

265. s1306508.png ; $\Phi _ { n } ^ { * } ( z ) = \sum _ { k = 0 } ^ { n } \overline { b } _ { n k } z ^ { n - k }$ ; confidence 0.267

266. n12012015.png ; $x \in \Sigma ^ { n }$ ; confidence 0.267

267. m1202108.png ; $\mathcal{K} ^ { n }$ ; confidence 0.267

268. l11002015.png ; $x ( y \bigwedge z ) t = x y t \bigwedge x z t.$ ; confidence 0.267

269. b13029047.png ; $\mathfrak { p } \in \operatorname { Spec } R$ ; confidence 0.267

270. s085400209.png ; $x \in K _ { n }$ ; confidence 0.267

271. z130110138.png ; $i = 1 , \dots , 2 ^ { q }$ ; confidence 0.267

272. m12027035.png ; $z _ { 1 } , \dots , z _ { n } , 1 / z _ { 1 } , \dots , 1 / z _ { n }$ ; confidence 0.267

273. c02583038.png ; $C_{00}$ ; confidence 0.267

274. s13040028.png ; $\sum _ { i = 0 } \operatorname { dim } H ^ { i } ( X , \mathbf{Z} / p ) \geq \sum _ { i = 0 } \operatorname { dim } H ^ { i } ( X ^ { P } , \mathbf{Z} / p ).$ ; confidence 0.266

275. l12012042.png ; $\hat { K } _ { \operatorname{p} } = \mathbf{C}$ ; confidence 0.266

276. b11066083.png ; $g_ 1 , \ldots , g_ { n }$ ; confidence 0.266

277. l12010075.png ; $K _ { n } : = n ( 2 / L _ { 1 , n } ) ^ { 2 / n } ( n + 2 ) ^ { - 1 - 2 / n }$ ; confidence 0.266

278. b130200121.png ; $( \alpha _ { i } | \alpha _ { j } ) = d _ { i } a _ {i j }$ ; confidence 0.266

279. a130040573.png ; $\mathsf{DL}$ ; confidence 0.266

280. e12026021.png ; $\mathsf{P} ( \theta , \mu ) ( d x ) = \frac { 1 } { L _ { \mu } ( \theta ) } \operatorname { exp } \langle \theta , x \rangle \mu ( d x ),$ ; confidence 0.266

281. a12026082.png ; $( a _ { i } ) _ { i \in \mathbf{N} }$ ; confidence 0.266

282. j1300205.png ; $ i \in \Gamma$ ; confidence 0.266

283. a130040583.png ; $\Lambda$ ; confidence 0.266

284. a11030038.png ; $( T ( a _ { 1 } , \dots , a _ { n } ) , d )$ ; confidence 0.266

285. b1201206.png ; $\alpha ( n ) = \text { Vol } ( S ^ { n } )$ ; confidence 0.266

286. d03027019.png ; $O ( E _{[ ( 1 - c ) n ] }( f ) )$ ; confidence 0.266

287. a12023033.png ; $p _ { 1 } , \dots , p _ { n }$ ; confidence 0.265

288. c120210100.png ; $X _ { 0 } , \dots , X _ { n }$ ; confidence 0.265

289. t1200105.png ; $( C ( \mathcal{S} ) , \overline { g } ) = ( \mathbf{R} _ { + } \times \mathcal{S} , d r ^ { 2 } + r ^ { 2 } g )$ ; confidence 0.265

290. b13006089.png ; $\Rightarrow ( \mu I - A ) ^ { - 1 } . E x = x \Rightarrow \Rightarrow \| ( \mu I - A ) ^ { - 1 } . E \| . \| x \| \geq \| x \|.$ ; confidence 0.265

291. c120170169.png ; $f , g \in P _ { n-k } $ ; confidence 0.265

292. b110220187.png ; $X / \mathbf{Q}$ ; confidence 0.265

293. i130030178.png ; $\operatorname{Ch} ( [ a ] )$ ; confidence 0.265

294. z13004026.png ; $c = \operatorname { lim } _ { n \rightarrow \infty } \operatorname { cr } ( K _ { n , n } ) \left( \begin{array} { l } { n } \\ { 2 } \end{array} \right) ^ { - 2 }$ ; confidence 0.265

295. a0106705.png ; $\mathcal{Y}$ ; confidence 0.265

296. a130040635.png ; $F _ { \mathcal{S} _ { P } } \mathfrak { M }$ ; confidence 0.264

297. f1202407.png ; $s , y$ ; confidence 0.264

298. c130070208.png ; $\sum \text { ord }_{ T } ( u d v )$ ; confidence 0.264

299. d03029015.png ; $P _ { n } ( x ) = \sum _ { k = 0 } ^ { n } c _ { k } s _ { k } ( x ),$ ; confidence 0.264

300. b12051084.png ; $H _ { n}^{ - 1} d$ ; confidence 0.264

How to Cite This Entry:
Maximilian Janisch/latexlist/latex/NoNroff/69. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Maximilian_Janisch/latexlist/latex/NoNroff/69&oldid=45960