Difference between revisions of "User:Maximilian Janisch/latexlist/latex/NoNroff/61"

Revision as of 22:14, 19 May 2020

List

1. ; $f ( \mathcal{A} ) = ( 2 \pi ) ^ { - k } \int _ { \mathbf{R} ^ { k } } e^ { i \xi \mathcal{A} } \hat { f } ( \xi ) d \xi$ ; confidence 0.458

2. ; $\lambda _ { 3 } = \left( \begin{array} { c c c } { 1 } & { 0 } & { 0 } \\ { 0 } & { - 1 } & { 0 } \\ { 0 } & { 0 } & { 0 } \end{array} \right) , \lambda _ { 4 } = \left( \begin{array} { c c c } { 0 } & { 0 } & { 1 } \\ { 0 } & { 0 } & { 0 } \\ { 1 } & { 0 } & { 0 } \end{array} \right) , \lambda _ { 5 } = \left( \begin{array} { c c c } { 0 } & { 0 } & { - i } \\ { 0 } & { 0 } & { 0 } \\ { i } & { 0 } & { 0 } \end{array} \right) , \lambda _ { 6 } = \left( \begin{array} { c c c } { 0 } & { 0 } & { 0 } \\ { 0 } & { 0 } & { 1 } \\ { 0 } & { 1 } & { 0 } \end{array} \right),$ ; confidence 0.458

3. ; $K _ { 2 } F$ ; confidence 0.458

4. ; $0.0110100\dots$ ; confidence 0.458

5. ; $j \in \mathbf{N} \backslash \{ j _ { n_k } : k \in \mathbf{N} \}$ ; confidence 0.458

6. ; $a \in E$ ; confidence 0.458

7. ; $x \in \operatorname { sp } u$ ; confidence 0.458

8. ; $F ( \tau ) = \frac { \pi } { 2 } \int _ { 0 } ^ { \infty } P _ { ( i \tau - 1 ) / 2 } ( 2 x ^ { 2 } + 1 ) f ( x ) d x,$ ; confidence 0.458

9. ; $t = ( t _ { n } )$ ; confidence 0.458

10. ; $\mathbf{E}$ ; confidence 0.458

11. ; $h ^ { i } ( K _ { X } \bigotimes L ) = 0 , \quad i > 0.$ ; confidence 0.458

12. ; $( \frac { \partial } { \partial \lambda } ) [ u ( z , \lambda ) ( \lambda - \lambda _ { 2 } ) ] = z ^ { \lambda_2 } + \ldots ,$ ; confidence 0.458

13. ; $y _ { 1 } , \dots , y _ { m + 1}$ ; confidence 0.458

14. ; $J _ { n / 2} ( r ) = 0$ ; confidence 0.458

15. ; $\mathsf{P} ( i \in \Gamma _ { \mathbf{p} } ) = p _ { i }$ ; confidence 0.458

16. ; $h \in M$ ; confidence 0.458

17. ; $( F _ { \text{win} } f ) ( \omega , t ) = \int f ( s ) g ( s - t ) e ^ { - i \omega s } d s,$ ; confidence 0.457

18. ; $f = \sum _ { j } a _ { j} x_j$ ; confidence 0.457

19. ; $\operatorname { deg } \Delta$ ; confidence 0.457

20. ; $U \in \text{SGL} _ { n } ( \mathbf{Z} A )$ ; confidence 0.457

21. ; $( n _ { 1 } , \dots , n _ { k } )$ ; confidence 0.457

22. ; $\text{rank} ( A ) = k \geq p$ ; confidence 0.457

23. ; $L ^ { p }$ ; confidence 0.457

24. ; $\sigma i$ ; confidence 0.457

25. ; $\operatorname { char } ( X ) = \prod _ { i = 1 } ^ { s } f _ { i } ( T ) ^ { l _ { i } } \prod _ { j = 1 } ^ { t } \pi ^ { m _ { j } },$ ; confidence 0.457

26. ; $\mathbf{Q} ^ { \times }$ ; confidence 0.456

27. ; $\theta = ( \theta _ { 1 } , \dots , \theta _ { m } ) \in \Theta \subset \mathbf{R} ^ { m }$ ; confidence 0.456

28. ; $E _ { n + 1} ( \operatorname { cos } \theta ) =$ ; confidence 0.456

29. ; $\operatorname{lim} _ { \rightarrow } H ^ { p } ( U _ { \lambda } ; G ) = H ^ { p } ( x ; G )$ ; confidence 0.456

30. ; $- \frac { 1 } { 2 } \sum _ { i , j = 1 } ^ { n } \frac { \partial ^ { 2 } \mu _ { 0 } } { \partial k _ { i } \partial \dot { k } _ { j } } ( k _ { c } , R _ { c } ) \frac { \partial ^ { 2 } A } { \partial \xi _ { i } \partial \xi _ { j } } + l A | A | ^ { 2 }$ ; confidence 0.456

31. ; $L_1$ ; confidence 0.456

32. ; $h_\lambda = h _ { \lambda _ { 1 } } \ldots h _ { \lambda _ { l } }$ ; confidence 0.456

33. ; $\phi _ { v } : \operatorname { WC } ( A , k ) \rightarrow WC ( A , k _ { v } ),$ ; confidence 0.456

34. ; $( - z ) P _ { n } ( - z ) / Q _ { n } ( - z )$ ; confidence 0.456

35. ; $( f _ { n } ) _ { n = 1 } ^ { \infty } $ ; confidence 0.456

36. ; $D ^ { \mathbf{r} }$ ; confidence 0.456

37. ; $\{ z \in \mathbf{C} ^ { n } : 1 + \langle z , \zeta \rangle \neq 0 \}$ ; confidence 0.456

38. ; $U ^ { i }$ ; confidence 0.456

39. ; $f ( z ) = \frac { | a | } { a } \frac { z - a } { 1 - \overline { a } z } , \quad | a | < 1,$ ; confidence 0.456

40. ; $\mathsf{E} [ W _ { p } ] _ { \text{NP} } = \frac { 1 } { 2 ( 1 - \sigma _ { p - 1 } ) ( 1 - \sigma _ { p } ) } \sum _ { k = 1 } ^ { P } \lambda _ { k } b _ { k } ^ { ( 2 ) },$ ; confidence 0.456

41. ; $\mathcal{U} ( L )$ ; confidence 0.455

42. ; $S ( k ) = f ( - k ) / f ( k ) = e ^ { 2 i \delta ( k ) }$ ; confidence 0.455

43. ; $M _ { \lambda } = ( Q _ { \langle \lambda _ { i } , \lambda _ { j } \rangle } )$ ; confidence 0.455

44. ; $\operatorname { gcd } ( N _ { 2n } , D _ { 2n } ) = 1$ ; confidence 0.455

45. ; $\lambda = ( \lambda _ { 1 } , \ldots , \lambda _ { n } ) \in \Lambda ( n , r )$ ; confidence 0.455

46. ; $n \gg 1$ ; confidence 0.455

47. ; $\Gamma ^ { \prime } \vdash_{\mathcal{D}} \varphi$ ; confidence 0.455

48. ; $t \rightarrow \int _ { 0 } ^ { t } ( \partial _ { s } ^ { * } + \partial _ { s } ) 1 d s = \mathcal{S} ^ { - 1 } \left( \int _ { 0 } ^ { t } ( D _ { s } ^ { * } + D _ { s } ) \Omega d s \right),$ ; confidence 0.455

49. ; $| w _ { 1 } | \geq \ldots \geq | w _ { n } |$ ; confidence 0.455

50. ; $\zeta ^ { \gamma } = \zeta ^ { u }$ ; confidence 0.455

51. ; $\nabla : \otimes ^ { r } \mathcal{E} \rightarrow \otimes ^ { r+ 1 } \mathcal{E}$ ; confidence 0.455

52. ; $q_X$ ; confidence 0.455

53. ; $\lambda x _ { 1 } \ldots x _ { n } . M$ ; confidence 0.455

54. ; $R _ { \text{p} }$ ; confidence 0.455

55. ; $\overline{M}$ ; confidence 0.455

56. ; $T _ { E }$ ; confidence 0.455

57. ; $k \operatorname { log } a _ { m } \leq i \operatorname { log } a _ { n } \leq ( k + 1 ) \operatorname { log } a _ { m }$ ; confidence 0.455

58. ; $G _ { e } = \operatorname{SL} _ { 2 } ( \mathbf{Z} )$ ; confidence 0.455

59. ; $Q _ { s } ( R )$ ; confidence 0.455

60. ; $v _ { i } = a _ { i } ^ { k }$ ; confidence 0.455

61. ; $r = \operatorname { dim } \mathfrak{n}^-$ ; confidence 0.455

62. ; $h \in \operatorname{QS} (\mathbf{ T} , \mathbf{C} ) : = \cup _ { M \geq 1 } M$ ; confidence 0.455

63. ; $\| \nu \|$ ; confidence 0.455

64. ; $A _ { U } ( s | _ { U } ) = A _ { M } ( s ) | _ { U }$ ; confidence 0.455

65. ; $\operatorname { lim } _ { t \rightarrow \infty } \mathsf{E}\operatorname { h } ( Z ( t ) ) = \frac { \int _ { 0 } ^ { \infty } b ( u ) d u } { \int _ { 0 } ^ { \infty } \mathsf{P} ( T _ { 1 } > u ) d u } =$ ; confidence 0.454

66. ; $b _ { i }$ ; confidence 0.454

67. ; $K ^ { 2 \times }I$ ; confidence 0.454

68. ; $\phi _ { n } ( z ) = \frac { \Phi _ { n } ( z ) } { \| \Phi _ { n } \| _ { \mu } },$ ; confidence 0.454

69. ; $\mathbf{Z}_l$ ; confidence 0.454

70. ; $( \mathcal{A} - z I ) x = K J \varphi _ { - }$ ; confidence 0.454

71. ; $x \in V _ { \bar{0} }$ ; confidence 0.454

72. ; $\int p \overline { q } d \mu = \langle M ( n ) \hat { p } , \hat { q } \rangle$ ; confidence 0.454

73. ; $\rho ( x ) = N \int _ { \mathbf{R} ^ { n ( N - 1 ) } } | \Phi ( x , x _ { 2 } , \ldots , x _ { N } ) | ^ { 2 } d x _ { 2 } \ldots d x _ { N }.$ ; confidence 0.454

74. ; $\int _ { B _ { i } } d \Omega _ { n } = V _ { i n } \sim ( \oversert{\rightharpoonup}{ V _ { n } } ) _ { i }$ ; confidence 0.454

75. ; $\operatorname{Ker} \varphi$ ; confidence 0.454

76. ; $L _ { s } ( E ^ { * } , E )$ ; confidence 0.454

77. ; $\varphi , \psi \in L ^ { 2 } ( \mathbf{R} ^ { n} )$ ; confidence 0.454

78. ; $\operatorname { ord } _ { s = m } L ( h ^ { i } ( X ) , s ) - \operatorname { ord } _ { s = m + 1 } L ( h ^ { i } ( X ) , s ) =$ ; confidence 0.454

79. ; $s _ { n } = 0$ ; confidence 0.453

80. ; $P ( x _ { 1 } , \ldots , x _ { n } )$ ; confidence 0.453

81. ; $S ( \theta ) \in V _ { q } ^ { p }$ ; confidence 0.453

82. ; $\dots +\left. \frac { n ! } { ( n + 1 ) \ldots 2 n } a _ { n } \right] = S$ ; confidence 0.453

83. ; $P ^ { \sharp } : T ^ { * } M \rightarrow T M$ ; confidence 0.453

84. ; $\text{ contr } ( W ( g ) \bigotimes \ldots \bigotimes W ( g ) ) =$ ; confidence 0.453

85. ; $\mathcal{E} _ { * }$ ; confidence 0.453

86. ; $\operatorname{CF} ( \zeta - z , w ) = \frac { ( n - 1 ) ! \sum _ { k = 1 } ^ { n } ( - 1 ) ^ { k - 1 } w _ { k } d w [ k ] \wedge d \zeta } { \langle w , \zeta - z \rangle ^ { n } },$ ; confidence 0.453

87. ; $\mathcal{G}$ ; confidence 0.453

88. ; $\mathsf{S} ^ { 2 } \mathcal{E} \otimes \mathsf{S} ^ { 2 } \mathcal{E} \rightarrow \mathsf{A} ^ { 2 } \mathcal{E} \otimes \mathsf{A} ^ { 2 } \mathcal{E}$ ; confidence 0.452

89. ; $| q ( x ) | \leq \operatorname { const } / x ^ { \beta }$ ; confidence 0.452

90. ; $K _ { s } ( \overline { \sigma } ) \cap K _ { \operatorname{tot}S }$ ; confidence 0.452

91. ; $D ( f . \omega ) = f . D ( \omega )$ ; confidence 0.452

92. ; $[ \phi ( x _ { 1 } , \ldots , x _ { n } ) = g ( \mu z ( f ( x _ { 1 } , \ldots , x _ { n } , z ) = 0 ) ) ].$ ; confidence 0.452

93. ; $\operatorname { Ind } _ { { H } } ^ { G }$ ; confidence 0.452

94. ; $= { k }$ ; confidence 0.452

95. ; $\text{Alg Mod}^ { *S } \text{ IPC }$ ; confidence 0.452

96. ; $V _ { j } ^ { n } \leq \operatorname { max } \left( \operatorname { max } _ { 0 \leq j \leq J } V _ { j } ^ { 0 } , \operatorname { max } _ { 0 \leq m \leq n } V _ { 0 } ^ { m } , \operatorname { max } _ { 0 \leq m \leq n } V _ { j } ^ { m } \right),$ ; confidence 0.452

97. ; $q_n$ ; confidence 0.452

98. ; $k \geq l $ ; confidence 0.452

99. ; $f _ { \mathfrak{A} } ( k )$ ; confidence 0.451

100. ; $g : \mathbf{P} ^ { 1 } \rightarrow X$ ; confidence 0.451

101. ; $\{ n : a _ { n } = 0 \} \in D$ ; confidence 0.451

102. ; $n \not \equiv \pm 1$ ; confidence 0.451

103. ; $p ( a , t ) = \left\{ \begin{array} { l l } { p _ { 0 } ( a - t ) \frac { \Pi ( a ) } { \Pi ( a - t ) } } & { \text { if } a \geq t, } \\ { b ( t - a ) \Pi ( a ) } & { \text { if } a < t, } \end{array} \right.$ ; confidence 0.451

104. ; $( \widetilde { M } , \widetilde{g} )$ ; confidence 0.451

105. ; $u$ ; confidence 0.451

106. ; $X _ { 1 } , X _ { 2 } , \dots$ ; confidence 0.451

107. ; $V ( K _ { \text{p} } )$ ; confidence 0.451

108. ; $\dot { i } < n$ ; confidence 0.451

109. ; $\sum _ { i = 1 } ^ { n } S _ { i } S _ { i } ^ { * } = I.$ ; confidence 0.451

110. ; $\mathcal{A} \phi$ ; confidence 0.451

111. ; $D ( \phi ) = 1 _ { Y } - \nabla f$ ; confidence 0.451

112. ; $V ^ { n }$ ; confidence 0.451

113. ; $| \lambda - a _ { i , i} | . | x _ { i } | \leq \sum _ { \substack{j = 1 \\ j \neq i }} ^ { n } | a _ { i , j} | . | x _ { j } | \leq r _ { i } ( A ) . | x _ { i } |,$ ; confidence 0.451

114. ; $a ^ { w } = \operatorname{Op} ( b )$ ; confidence 0.451

115. ; $( x _ { 1 } , \dots , x _ { n } ) \in \{ 0,1 \} ^ { n }$ ; confidence 0.450

116. ; $\mathcal{P} _ { \text{F} } ^ { \# } ( n )$ ; confidence 0.450

117. ; $\operatorname{SL} ( 2 , \mathbf{Q} )$ ; confidence 0.450

118. ; $H \in \mathbf{N}$ ; confidence 0.450

119. ; $\overline { \sigma } \in G ( K ) ^ { e }$ ; confidence 0.450

120. ; $\zeta \in Z _ { p }$ ; confidence 0.450

121. ; $\mathcal{R} ( t ) = \tau ^ { - 1 _ { t , v } } \circ R ( t ) \circ \tau _ { t , v }$ ; confidence 0.450

122. ; $y = \tilde { y }$ ; confidence 0.450

123. ; $\lambda = ( \lambda _ { 1 } , \dots , \lambda _ { r ( \lambda ) })$ ; confidence 0.450

124. ; $( x _ { i } , \ldots , x _ { n } ) \in \{ 0,1 \} ^ { n }$ ; confidence 0.450

125. ; $\operatorname { Re } \int _ { C } ( \omega _ { 1 } , \dots , \omega _ { n } ) = ( 0 , \dots , 0 ).$ ; confidence 0.450

126. ; $x _ { i } + x _ { k }$ ; confidence 0.450

127. ; $X / Y$ ; confidence 0.450

128. ; $\mathcal{G} = \operatorname { Fun } _ { q } ( G ( k , n ) )$ ; confidence 0.450

129. ; $E ^ { \operatorname{TF} } ( N ) > \sum _ { j = 1 } ^ { K } E _ { \operatorname{atom} } ^ { \operatorname{TF} } ( N _ { j } , Z _ { j } ),$ ; confidence 0.450

130. ; $X := \Gamma X$ ; confidence 0.450

131. ; $s + T$ ; confidence 0.450

132. ; $a \otimes \hat { f } : = \int _ { - \infty } ^ { \infty } a ( x , \alpha , p - q ) \hat { f } ( q ) d q$ ; confidence 0.450

133. ; $f _ { 1 } , \ldots , f _ { m }$ ; confidence 0.449

134. ; $\{ e ^ { i \eta . y } \phi _ { m } ( y ; \eta ) \}$ ; confidence 0.449

135. ; $\mathbf{T}$ ; confidence 0.449

136. ; $\left( \sigma _ { 2 } \frac { \partial } { \partial t _ { 1 } } - \sigma _ { 1 } \frac { \partial } { \partial t _ { 2 } } + \gamma \right) u = 0.$ ; confidence 0.449

137. ; $\mu _ { i }$ ; confidence 0.449

138. ; $\{ I_j \}$ ; confidence 0.449

139. ; $J _ { i j } > 0$ ; confidence 0.449

140. ; $x \mapsto e ^ { i t } e ^ { i p q / 2 } e ^ { i q x } f ( x + p )$ ; confidence 0.449

141. ; $\operatorname{ad} _ { q } \in L$ ; confidence 0.449

142. ; $\varphi : \Gamma ^ { q + 1 } \rightarrow \mathbf{C}$ ; confidence 0.449

143. ; $A \cap B =_{*} \emptyset$ ; confidence 0.449

144. ; $( A ^ { * } X ) _ { t } = \int _ { 0 } ^ { t } A H _ { s } . d B _ { s }$ ; confidence 0.449

145. ; $a_{i,j} ( x ) = a _ { j , i } ( x )$ ; confidence 0.448

146. ; $\left( \begin{array} { r r } { 0 } & { 0 } \\ { - \varepsilon K ( c , d ) } & { 0 } \end{array} \right).$ ; confidence 0.448

147. ; $\delta ( z ) = \operatorname { diag } ( z ^ { k _ { 1 } } , \ldots , z ^ { k _ { n } } )$ ; confidence 0.448

148. ; $= Z ^ { 2 } \rho _ { \text { atom } } ^ { \operatorname{TF} } ( Z ^ { 1 / 3 } x ; N = \lambda , Z = 1 ).$ ; confidence 0.448

149. ; $q = p , p ^ { 2 } , p ^ { 3 } , . .$ ; confidence 0.448

150. ; $x _ { 1 } < \ldots < x _ { n }$ ; confidence 0.448

151. ; $e _ { n } ( F _ { d } )$ ; confidence 0.448

152. ; $P \in N$ ; confidence 0.448

153. ; $| \lambda - a _ { i , i} | = r _ { i } ( A ) \text { for each } 1 \leq i \leq n.$ ; confidence 0.448

154. ; $\mu _ { x }$ ; confidence 0.448

155. ; $\mathbf{C} _ { + } : = \{ k : \operatorname { Im } k \geq 0 \}$ ; confidence 0.448

156. ; $P \in A$ ; confidence 0.448

157. ; $t _ { 1 } , \ldots , t _ { n }$ ; confidence 0.448

158. ; $z \in \mathbf{C} \backslash \mathbf{Z} _ { 0 }^- , \quad \mathbf{Z} _ { 0 } ^ { - } : = \{ 0 , - 1 , - 2 , \ldots \},$ ; confidence 0.448

159. ; $m ( P ) \geq c_0$ ; confidence 0.448

160. ; $= \sum _ { n \in \mathbf{Z} } \sum _ { k \geq 0 } \left( \begin{array} { c } { n } \\ { k } \end{array} \right) ( - 1 ) ^ { k } x _ { 1 } ^ { n - k } x _ { 2 } ^ { k } x _ { 0 } ^ { - n - 1 },$ ; confidence 0.448

161. ; $| U |$ ; confidence 0.448

162. ; $X \subset S ^ { n}$ ; confidence 0.447

163. ; $f \in L ^ { p } ( \mathcal{T} ^ { n } )$ ; confidence 0.447

164. ; $\frac { \mu _ { n } ( x ) } { \mu _ { n } } \rightarrow \frac { \int _ { - \infty } ^ { \infty } \alpha ^ { s ( x + \beta ) } e ^ { - \alpha ^ { s } } d N ( s ) } { \Gamma ( x + 1 ) \int _ { - \infty } ^ { \infty } \alpha ^ { s \beta } e ^ { - \alpha ^ { s } } d N ( s ) },$ ; confidence 0.447

165. ; $\operatorname{ind} T _ { \phi - \lambda } = - \text { wind } ( \phi - \lambda )$ ; confidence 0.447

166. ; $Z = \sum _ { S _ { 1 } = \pm 1 } \ldots \sum _ { S _ { N } = \pm 1 }$ ; confidence 0.447

167. ; $z ^ { \alpha } = z _ { 1 } ^ { \alpha _ { 1 } } \ldots z _ { n } ^ { \alpha _ { n } }$ ; confidence 0.447

168. ; $\operatorname { Fun } _ { q } ( M )$ ; confidence 0.447

169. ; $m = 0 , \pm 1 , \pm 2 , \dots$ ; confidence 0.447

170. ; $| \alpha | = \sum _ { l = 1 } ^ { d } \alpha _ { l }$ ; confidence 0.447

171. ; $\operatorname{p} = ( p _ { 1 } , \dots , p _ { n + 2} )$ ; confidence 0.447

172. ; $r_2$ ; confidence 0.447

173. ; $( W , J ^ { \prime } )$ ; confidence 0.447

174. ; $\psi ( P ) = \operatorname { exp } \left( \sum t _ { n } \Omega _ { n } \right) \phi \left( \sum t _ { n } \overset{\rightharpoonup}{ V } _ { n } , P \right) ,$ ; confidence 0.447

175. ; $\hat { A } = A \oplus B$ ; confidence 0.447

176. ; $\| T \| \leq 1$ ; confidence 0.447

177. ; $R_0 ( X , D ) \otimes \mathbf{Q}$ ; confidence 0.447

178. ; $a \leq x _ { 1 } < \ldots < x _ { m } \leq b$ ; confidence 0.447

179. ; $k \left[ 1 - S ( k ) + \frac { Q } { i k } \right] \in L ^ { 2 } ( \mathbf{R} ),$ ; confidence 0.447

180. ; $\{ b _ { j } ^ { n } : j = 0 , \dots , n \}$ ; confidence 0.447

181. ; $g \in G , X , Y \in \mathfrak { g }.$ ; confidence 0.446

182. ; $0 \leq a _ { 1 } < \ldots < a _ { k } \leq n - 1$ ; confidence 0.446

183. ; $Z \rightarrow \lambda _ { + } ^ { N } $ ; confidence 0.446

184. ; $\delta f ( x _ { 0 } , h )$ ; confidence 0.446

185. ; $d _ { i j}$ ; confidence 0.446

186. ; $\langle \mathcal{L} p , q \rangle _ { s } = \langle p , \mathcal{L} q \rangle _ { s }$ ; confidence 0.446

187. ; $d \alpha$ ; confidence 0.446

188. ; $\Theta = \left( \begin{array} { c c c } { \mathcal{A} } & { } & { K } & { J } \\ { \mathfrak { H } _ { + } \subset \mathfrak { H } \subset \mathfrak { H } _ { - } } & & { \square } & { \mathfrak { E } } \end{array} \right)$ ; confidence 0.446

189. ; $S ^ { \prime \prime } = S ^ { ( 2 ) }$ ; confidence 0.446

190. ; $\| u - u v \| _ { A _ { p } ( G ) } < \epsilon$ ; confidence 0.446

191. ; $\mathbf{T} _ { 1 }$ ; confidence 0.446

192. ; $X _ { n } = f ( Z _ { n } , \dots , Z _ { n + m} )$ ; confidence 0.446

193. ; $d \geq 2$ ; confidence 0.446

194. ; $\cup_ \lambda X_ \lambda$ ; confidence 0.446

195. ; $\widetilde { f }$ ; confidence 0.446

196. ; $\phi ( n ) = \sum _ { d | n } d \mu \left( \frac { n } { d } \right) .$ ; confidence 0.446

197. ; $a _ { 0 } + a _ { 1 } t + \ldots + a _ { n } t ^ { n }$ ; confidence 0.445

198. ; $\mathcal{K} = \mathcal{H} ^ { n }$ ; confidence 0.445

199. ; $S \subset T ^ { \prime }$ ; confidence 0.445

200. ; $l _ { j t } \leq x _ { j t } \leq u _ { j t };$ ; confidence 0.445

201. ; $\| f \| _ { H ^ { p } } ^ { p } : = \frac { 1 } { 2 \pi } \operatorname { sup } _ { r < 1 } \int _ { - \pi } ^ { \pi } | f ( r e ^ { i \vartheta } ) | ^ { p } d \vartheta$ ; confidence 0.445

202. ; $k \langle a , b , c , d \rangle $ ; confidence 0.445

203. ; $V = \oplus _ { n \in \mathbf{Z} } V _ { ( n ) }$ ; confidence 0.445

204. ; $\tilde{g} \in \mathsf{S} ^ { 2 } \mathcal{E}$ ; confidence 0.445

205. ; $\mathcal{U} _ { K } = K \otimes _\mathbf{Z} \mathcal{U} _ { \mathbf{Z} }$ ; confidence 0.445

206. ; $\mathbf{C} _ { - } : = \{ k : \operatorname { Im } k < 0 \}$ ; confidence 0.445

207. ; $U \# _j \Omega = U \bigcap \{ \operatorname { Im } z _ { k } \neq 0 : k \neq j \}.$ ; confidence 0.445

208. ; $P _ { 4 _ { 1 } } ( v , z ) - 1 = ( v ^ { - 1 } - v ) ^ { 2 } - z ^ { 2 } = - v ^ { - 2 } ( P _ { 3_1 } ( v , z ) - 1 ) = - v ^ { 2 } ( P _ { \overline{3}_1 } ( v , z ) - 1 )$ ; confidence 0.445

209. ; $2 ^ { O ( s ( n ) ) }$ ; confidence 0.445

210. ; $- \Delta _ { \operatorname{Dir} }$ ; confidence 0.445

211. ; $\{ P _ { \alpha _ { n } } , \theta \}$ ; confidence 0.445

212. ; $\mathbf{y} = ( y _ { 1 } , \dots , y _ { m } ) ^ { T }$ ; confidence 0.445

213. ; $x _ { j } ^ { \prime } \not\equiv 0$ ; confidence 0.445

214. ; $f ( X ) = a _ { n } X ^ { n } + a _ { n - 1 } X ^ { n - 1 } + \ldots + a _ { 0 }$ ; confidence 0.445

215. ; $v _ { p } ( n )$ ; confidence 0.445

216. ; $u _ { h } ^ { 0 }$ ; confidence 0.444

217. ; $G \in \mathcal{L}$ ; confidence 0.444

218. ; $b _ { j } ^ { n } ( x ) : = \left( \begin{array} { c } { n } \\ { j } \end{array} \right) x ^ { j } ( 1 - x ) ^ { n - j } , j = 0 , \ldots , n.$ ; confidence 0.444

219. ; $\text{l}u _ { + } - { k } ^ { 2 } u _ { + } = 0 , x \in \mathbf{R},$ ; confidence 0.444

220. ; $a \preceq b _ { 1 } \ldots b _ { n }$ ; confidence 0.444

221. ; $k = 0,1,2 , \dots$ ; confidence 0.444

222. ; $f = x ^ { n } + a _ { n - 1 } x ^ { n - 1 } + \ldots + a _ { 1 } x + a _ { 0 }$ ; confidence 0.444

223. ; $\sigma _ { 1 } \Phi A _ { 2 } - \sigma _ { 2 } \Phi A _ { 1 } = \widetilde { \gamma } \Phi,$ ; confidence 0.444

224. ; $g ( a , b ) \subseteq T$ ; confidence 0.444

225. ; $d \geq 3$ ; confidence 0.444

226. ; $\xi ^ { * }$ ; confidence 0.444

227. ; $( T - t _ { j } I ) ^ { r _ { j } } P _ { j } = 0 \quad ( j = 1 , \ldots , n );$ ; confidence 0.444

228. ; $\alpha = ( \alpha_ 0 , \dots , \alpha _ { m } )$ ; confidence 0.444

229. ; $x \mapsto \operatorname { gxg } ^ { - 1 }$ ; confidence 0.444

230. ; $R_l$ ; confidence 0.443

231. ; $D _ { n } ( x , a )$ ; confidence 0.443

232. ; $R \subset H _ { \mathcal{M} } ^ { 3 } ( X , \mathbf{Q} ( 2 ) )$ ; confidence 0.443

233. ; $E _ { [ m , s ] }$ ; confidence 0.443

234. ; $h _ { K } ( u ) : = \operatorname { max } \{ \langle x , u \rangle : x \in K \},$ ; confidence 0.443

235. ; $\operatorname{Mod} ^ { * S} { \mathcal{D} }$ ; confidence 0.443

236. ; $\rho _ { X } \circ \pi _ { Y } ( a ) = \rho _ { X } ( a )$ ; confidence 0.443

237. ; $\mu \in \mathcal{H} ( \mathbf{C} ^ { n } ) ^ { \prime }$ ; confidence 0.443

238. ; $\zeta _ { q + 1} , \dots , \zeta _ { r }$ ; confidence 0.443

239. ; $a _ { i j } \in \mathbf{R}$ ; confidence 0.443

240. ; $W_ { m } ^ { k } ( \Omega )$ ; confidence 0.443

241. ; $\operatorname{Hol} ( \mathbf{B} )$ ; confidence 0.443

242. ; $M_i$ ; confidence 0.443

243. ; $E _ { z _ { 0 } } ( x , R ) =$ ; confidence 0.443

244. ; $F B ( \sigma _ { g } , G )$ ; confidence 0.443

245. ; $\widetilde { N } = N _ { 0 } \times ( - 1 , + 1 )$ ; confidence 0.443

246. ; $\phi _ { 0 } , \phi _ { 1 } , \ldots$ ; confidence 0.443

247. ; $r g _ { 1 } \simeq g_2$ ; confidence 0.443

248. ; $K_ S ( w , z ) = [ 1 - S ( z ) \overline { S ( w ) } ] / ( 1 - z \overline { w } )$ ; confidence 0.443

249. ; $\hat { f } ( \alpha , p ) = \int _ { \operatorname { l}_{\alpha p} } f ( x ) d s : = R f$ ; confidence 0.443

250. ; $D _ { k } = U ( \mathfrak{a} ) \otimes _ { \mathbf{C} } \wedge ^ { k } ( \mathfrak{a} )$ ; confidence 0.442

251. ; $Z^k$ ; confidence 0.442

252. ; $a _ { 1 } ( S _ { n } - S ) + a _ { 2 } ( S _ { n + 1 } - S ) = 0$ ; confidence 0.442

253. ; $z \operatorname{sinh} w/ ( z ^ { 2 } - 2 z \operatorname { cosh } w + 1 )$ ; confidence 0.442

254. ; $k = \mathbf{C}$ ; confidence 0.442

255. ; $X _ { 1 } , \dots , X _ { n } , \dots$ ; confidence 0.442

256. ; $\| B ( x , y ) \| _ { + } \leq c \sum _ { j = 1 } ^ { \infty } \| \lambda _j \varphi_j ( x ) \| _ { + } =$ ; confidence 0.442

257. ; $L = \left( \begin{array} { c c c c c } { m _ { 1 } } & { m _ { 2 } } & { \ldots } & { \ldots } & { m _ { k } } \\ { p _ { 1 } } & { 0 } & { \ldots } & { \ldots } & { 0 } \\ { 0 } & { p _ { 2 } } & { 0 } & { \ldots } & { 0 } \\ { \vdots } & { \square } & { \ddots } & { \square } & { \vdots } \\ { 0 } & { \ldots } & { 0 } & { p _ { k - 1 } } & { 0 } \end{array} \right),$ ; confidence 0.442

258. ; $P _ { m , K }$ ; confidence 0.442

259. ; $\infty _-$ ; confidence 0.442

260. ; $\mathcal{I} _ { S }$ ; confidence 0.442

261. ; $E = ( E _ { x } , E _ { y } , E _ { z } )$ ; confidence 0.442

262. ; $G _ { \operatorname{inn} } \triangleleft G$ ; confidence 0.442

263. ; $\langle D | f \rangle = ( - 1 ) ^ { | f | } - z ^{ | f | - \operatorname { com } ( D _ { f , 1 } ) - \operatorname { com } ( D _ { f , 2 } ) + \operatorname { com } ( D )}$ ; confidence 0.442

264. ; $( \tilde { G } , \tilde { c } )$ ; confidence 0.442

265. ; $( K _ { ( 1 ) } , \dots , K _ { ( n ) } )$ ; confidence 0.442

266. ; $R = \sum a _ { i } \otimes b _ { i }$ ; confidence 0.441

267. ; $= \int _ { \Omega } \int _ { \mathbf{R} ^ { d } } \varphi ( x , \lambda ) d \nu _ { x } ( \lambda ) d x,$ ; confidence 0.441

268. ; $\phi _ { n } ( z ) = \kappa _ { n } f _ { n } ( z ) +\dots $ ; confidence 0.441

269. ; $x \leftrightarrow \top $ ; confidence 0.441

270. ; $f ^ { \rho } = a _ { 1 } f _ { 1 } + \ldots + a _ { m } f _ { m }.$ ; confidence 0.441

271. ; $\square ^ { '' } \Gamma$ ; confidence 0.441

272. ; $H \times C ^ { o }$ ; confidence 0.441

273. ; $Y_f$ ; confidence 0.441

274. ; $l \geq n$ ; confidence 0.441

275. ; $u = e ^ { i k \alpha x } + v , \operatorname { lim } _ { r \rightarrow \infty } \int _ { | s | = r } \left| \frac { \partial v } { \partial | x | } - i k v \right| ^ { 2 } d s = 0.$ ; confidence 0.441

276. ; $\mathcal{S} _ { p }$ ; confidence 0.441

277. ; $P \cup R$ ; confidence 0.441

278. ; $\int _ { - \infty } ^ { \infty } | f | | r | d x < \infty$ ; confidence 0.441

279. ; $d \geq 1$ ; confidence 0.441

280. ; $g ( \overline { u } _ { 1 } ) = v ^ { * } = \overline { q } = v _ { \text{M} }$ ; confidence 0.440

281. ; $A = Z$ ; confidence 0.440

282. ; $Q _ { n } ( T _ { g } ( z ) ) - q ^ { - n }$ ; confidence 0.440

283. ; $G = ( \square _ { B } ^ { A^* } )$ ; confidence 0.440

284. ; $\overline{b}$ ; confidence 0.440

285. ; $I _ { x }$ ; confidence 0.440

286. ; $\lambda = \frac { ( 1 - \alpha ) ( k + d n _ { k } ) } { ( k + cn _ { k } ) }$ ; confidence 0.440

287. ; $\xi _ { 1 } , \dots , \xi _ { n + 1}$ ; confidence 0.440

288. ; $C ^ { * _ E} ( S ) \otimes _ { \delta } \mathcal{C} _ { 0 } ( S )$ ; confidence 0.440

289. ; $\sum _ { j \geq 1 } | e _ { j } | ^ { \gamma } \leq L _ { \gamma , n } \int _ { \mathbf{R} ^ { n } } V _ { - } ( x ) ^ { \gamma + n / 2 } d x$ ; confidence 0.440

290. ; $D = \sum _ { k = 1 } ^ { r } a _ { k } D _ { k }$ ; confidence 0.440

291. ; $( S _ { n + m + 1 } )$ ; confidence 0.440

292. ; $K_*$ ; confidence 0.440

293. ; $\mathbf{k} : = \{ K ( a , b ) \} _ { \text{span} }$ ; confidence 0.440

294. ; $x \in \mathbf{R} ^ { n }$ ; confidence 0.440

295. ; $L _ { k } ( \mathbf{a} )$ ; confidence 0.440

296. ; $B \rtimes H \ltimes B ^ { * }$ ; confidence 0.440

297. ; $e ^ { n _ \alpha + 1}$ ; confidence 0.439

298. ; $P ^ { \mathcal{A} }$ ; confidence 0.439

299. ; $Q \in \mathbf{N} ^ { m }$ ; confidence 0.439

300. ; $- \sum _ { k = 1 } ^ { s } e _ { k } D _ { k }$ ; confidence 0.439

How to Cite This Entry:
Maximilian Janisch/latexlist/latex/NoNroff/61. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Maximilian_Janisch/latexlist/latex/NoNroff/61&oldid=45859

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Difference between revisions of "User:Maximilian Janisch/latexlist/latex/NoNroff/61"

Revision as of 22:14, 19 May 2020

List

@@ Line 20: / Line 20: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130240/a13024029.png ; $\mathbf{E}$ ; confidence 0.458
-. https://www.encyclopediaofmath.org/legacyimages/k/k120/k120060/k12006020.png ; $h ^ { i } ( K _ { X } \otimes L ) = 0 , \quad i > 0.$ ; confidence 0.458
+. https://www.encyclopediaofmath.org/legacyimages/k/k120/k120060/k12006020.png ; $h ^ { i } ( K _ { X } \bigotimes L ) = 0 , \quad i > 0.$ ; confidence 0.458
 . https://www.encyclopediaofmath.org/legacyimages/f/f120/f120210/f12021096.png ; $( \frac { \partial } { \partial \lambda } ) [ u ( z , \lambda ) ( \lambda - \lambda _ { 2 } ) ] = z ^ { \lambda_2 }  + \ldots ,$ ; confidence 0.458
-. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120270/e12027032.png ; $y _ { 1 } , \dots , y _ { m } + 1$ ; confidence 0.458
+. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120270/e12027032.png ; $y _ { 1 } , \dots , y _ { m  + 1}$ ; confidence 0.458
 . https://www.encyclopediaofmath.org/legacyimages/p/p120/p120150/p12015034.png ; $J _ { n  / 2} ( r ) = 0$ ; confidence 0.458
-. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130020/j1300204.png ; $\mathbf{P} ( i \in \Gamma _ { p } ) = p _ { i }$ ; confidence 0.458
+. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130020/j1300204.png ; $\mathsf{P} ( i \in \Gamma _ { \mathbf{p} } ) = p _ { i }$ ; confidence 0.458
 . https://www.encyclopediaofmath.org/legacyimages/q/q130/q130050/q13005026.png ; $h \in M$ ; confidence 0.458
-. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130140/w1301401.png ; $( F _ { win } f ) ( \omega , t ) = \int f ( s ) g ( s - t ) e ^ { - i \omega s } d s,$ ; confidence 0.457
+. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130140/w1301401.png ; $( F _ { \text{win} } f ) ( \omega , t ) = \int f ( s ) g ( s - t ) e ^ { - i \omega s } d s,$ ; confidence 0.457
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120160/b12016040.png ; $f = \sum _ { j } a _ { j} x_j$ ; confidence 0.457
@@ Line 38: / Line 38: @@
 . https://www.encyclopediaofmath.org/legacyimages/h/h130/h130070/h13007037.png ; $\operatorname { deg } \Delta$ ; confidence 0.457
-. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130070/z13007049.png ; $U \in SGL _ { n } ( \mathbf{Z} A )$ ; confidence 0.457
+. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130070/z13007049.png ; $U \in \text{SGL} _ { n } ( \mathbf{Z} A )$ ; confidence 0.457
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120150/a12015062.png ; $( n _ { 1 } , \dots , n _ { k } )$ ; confidence 0.457
@@ Line 66: / Line 66: @@
 . https://www.encyclopediaofmath.org/legacyimages/w/w097/w097590/w09759027.png ; $\phi _ { v } : \operatorname { WC } ( A , k ) \rightarrow WC ( A , k _ { v } ),$ ; confidence 0.456
-. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130590/s13059039.png ; $( - z ) P _ { N } ( - z ) / Q _ { N } ( - z )$ ; confidence 0.456
+. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130590/s13059039.png ; $( - z ) P _ { n } ( - z ) / Q _ { n } ( - z )$ ; confidence 0.456
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120530/b12053024.png ; $( f _ { n } ) _ { n = 1 } ^ { \infty } $ ; confidence 0.456
-. https://www.encyclopediaofmath.org/legacyimages/h/h130/h130130/h13013013.png ; $D ^ { r }$ ; confidence 0.456
+. https://www.encyclopediaofmath.org/legacyimages/h/h130/h130130/h13013013.png ; $D ^ { \mathbf{r} }$ ; confidence 0.456
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010130.png ; $\{ z \in \mathbf{C} ^ { n } : 1 + \{ z , \zeta \} \neq 0 \}$ ; confidence 0.456
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010130.png ; $\{ z \in \mathbf{C} ^ { n } : 1 + \langle z , \zeta \rangle \neq 0 \}$ ; confidence 0.456
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120160/s12016012.png ; $U ^ { i }$ ; confidence 0.456
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120280/b1202803.png ; $f ( z ) = \frac { | \alpha | } { \alpha } \frac { z - \alpha } { 1 - \overline { \alpha } z } , \quad | \alpha | < 1,$ ; confidence 0.456
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120280/b1202803.png ; $f ( z ) = \frac { | a | } { a } \frac { z - a } { 1 - \overline { a } z } , \quad | a | < 1,$ ; confidence 0.456
-. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120080/q12008030.png ; $\textbf{E} [ W _ { p } ] _ { NP } = \frac { 1 } { 2 ( 1 - \sigma _ { p - 1 } ) ( 1 - \sigma _ { p } ) } \sum _ { k = 1 } ^ { P } \lambda _ { k } b _ { k } ^ { ( 2 ) },$ ; confidence 0.456
+. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120080/q12008030.png ; $\mathsf{E} [ W _ { p } ] _ { \text{NP} } = \frac { 1 } { 2 ( 1 - \sigma _ { p - 1 } ) ( 1 - \sigma _ { p } ) } \sum _ { k = 1 } ^ { P } \lambda _ { k } b _ { k } ^ { ( 2 ) },$ ; confidence 0.456
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120320/s12032050.png ; $\mathcal{U} ( L )$ ; confidence 0.455
@@ Line 86: / Line 86: @@
 . https://www.encyclopediaofmath.org/legacyimages/s/s130/s130140/s13014014.png ; $M _ { \lambda } = ( Q _ { \langle \lambda _ { i } , \lambda _ { j } \rangle } )$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/v/v120/v120060/v12006010.png ; $\operatorname { gcd } ( N _ { 2 x } , D _ { 2 x } ) = 1$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/v/v120/v120060/v12006010.png ; $\operatorname { gcd } ( N _ { 2n } , D _ { 2n } ) = 1$ ; confidence 0.455
 . https://www.encyclopediaofmath.org/legacyimages/w/w120/w120090/w120090100.png ; $\lambda = ( \lambda _ { 1 } , \ldots , \lambda _ { n } ) \in \Lambda ( n , r )$ ; confidence 0.455
@@ Line 106: / Line 106: @@
 . https://www.encyclopediaofmath.org/legacyimages/l/l057/l057000/l05700060.png ; $\lambda x _ { 1 } \ldots x _ { n } . M$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130050/z13005042.png ; $R _ { p }$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130050/z13005042.png ; $R _ { \text{p} }$ ; confidence 0.455
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120050/a120050110.png ; $\overline{M}$ ; confidence 0.455
@@ Line 114: / Line 114: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120320/b12032090.png ; $k \operatorname { log } a _ { m } \leq i \operatorname { log } a _ { n } \leq ( k + 1 ) \operatorname { log } a _ { m }$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130220/m13022025.png ; $G _ { e } = SL _ { 2 } ( \mathbf{Z} )$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130220/m13022025.png ; $G _ { e } = \operatorname{SL} _ { 2 } ( \mathbf{Z} )$ ; confidence 0.455
 . https://www.encyclopediaofmath.org/legacyimages/m/m120/m120120/m12012098.png ; $Q _ { s } ( R )$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/n/n066/n066630/n06663099.png ; $v _ { i } = \alpha _ { i } ^ { k }$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/n/n066/n066630/n06663099.png ; $v _ { i } = a _ { i } ^ { k }$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120210/b12021072.png ; $r = \operatorname { dim } n^-$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120210/b12021072.png ; $r = \operatorname { dim } \mathfrak{n}^-$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/q/q130/q130050/q13005099.png ; $h \in QS (\mathbf{ T} , \mathbf{C} ) : = \cup _ { M \geq 1 } M$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/q/q130/q130050/q13005099.png ; $h \in \operatorname{QS} (\mathbf{ T} , \mathbf{C} ) : = \cup _ { M \geq 1 } M$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130040/g130040167.png ; $\| v \|$ ; confidence 0.455
+. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130040/g130040167.png ; $\| \nu \|$ ; confidence 0.455
 . https://www.encyclopediaofmath.org/legacyimages/n/n120/n120040/n12004016.png ; $A _ { U } ( s | _ { U } ) = A _ { M } ( s ) | _ { U }$ ; confidence 0.455
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120270/b120270105.png ; $\operatorname { lim } _ { t \rightarrow \infty } \operatorname { Eh } ( Z ( t ) ) = \frac { \int _ { 0 } ^ { \infty } b ( u ) d u } { \int _ { 0 } ^ { \infty } \mathbf{P} ( T _ { 1 } > u ) d u } =$ ; confidence 0.454
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120270/b120270105.png ; $\operatorname { lim } _ { t \rightarrow \infty } \mathsf{E}\operatorname { h } ( Z ( t ) ) = \frac { \int _ { 0 } ^ { \infty } b ( u ) d u } { \int _ { 0 } ^ { \infty } \mathsf{P} ( T _ { 1 } > u ) d u } =$ ; confidence 0.454
 . https://www.encyclopediaofmath.org/legacyimages/a/a110/a110680/a11068012.png ; $b _ { i }$ ; confidence 0.454
@@ Line 138: / Line 138: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c027/c027560/c02756035.png ; $\mathbf{Z}_l$ ; confidence 0.454
-. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130050/o13005049.png ; $( \mathcal{A} - z l ) x = K J \varphi _ { - }$ ; confidence 0.454
+. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130050/o13005049.png ; $( \mathcal{A} - z I ) x = K J \varphi _ { - }$ ; confidence 0.454
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120320/s1203206.png ; $x \in V _ { \bar{0} }$ ; confidence 0.454
@@ Line 146: / Line 146: @@
 . https://www.encyclopediaofmath.org/legacyimages/l/l120/l120100/l12010080.png ; $\rho ( x ) = N \int _ { \mathbf{R} ^ { n ( N - 1 ) } } | \Phi ( x , x _ { 2 } , \ldots , x _ { N } ) | ^ { 2 } d x _ { 2 } \ldots d x _ { N }.$ ; confidence 0.454
-. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w13008045.png ; $\int _ { B _ { i } } d \Omega _ { n } = V _ { i n } \sim ( \vec { V _ { n } } ) _ { i }$ ; confidence 0.454
+. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w13008045.png ; $\int _ { B _ { i } } d \Omega _ { n } = V _ { i n } \sim ( \oversert{\rightharpoonup}{ V _ { n } } ) _ { i }$ ; confidence 0.454
 . https://www.encyclopediaofmath.org/legacyimages/i/i130/i130090/i13009091.png ; $\operatorname{Ker} \varphi$ ; confidence 0.454
@@ Line 158: / Line 158: @@
 . https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w130080135.png ; $s _ { n } = 0$ ; confidence 0.453
-. https://www.encyclopediaofmath.org/legacyimages/a/a011/a011530/a01153012.png ; $P ( x _ { 1 } , \ldots , x _ { x } )$ ; confidence 0.453
+. https://www.encyclopediaofmath.org/legacyimages/a/a011/a011530/a01153012.png ; $P ( x _ { 1 } , \ldots , x _ { n } )$ ; confidence 0.453
 . https://www.encyclopediaofmath.org/legacyimages/s/s090/s090670/s09067090.png ; $S ( \theta ) \in V _ { q } ^ { p }$ ; confidence 0.453
@@ Line 166: / Line 166: @@
 . https://www.encyclopediaofmath.org/legacyimages/l/l120/l120090/l12009031.png ; $P ^ { \sharp } : T ^ { * } M \rightarrow T M$ ; confidence 0.453
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180362.png ; $\text{ contr } ( W ( g ) \otimes \ldots \otimes W ( g ) ) =$ ; confidence 0.453
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180362.png ; $\text{ contr } ( W ( g ) \bigotimes \ldots \bigotimes W ( g ) ) =$ ; confidence 0.453
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180128.png ; $\mathcal{E} _ { * }$ ; confidence 0.453
-. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120230/a12023045.png ; $CF ( \zeta - z , w ) = \frac { ( n - 1 ) ! \sum _ { k = 1 } ^ { n } ( - 1 ) ^ { k - 1 } w _ { k } d w [ k ] \wedge d \zeta } { \langle w , \zeta - z \rangle ^ { n } },$ ; confidence 0.453
+. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120230/a12023045.png ; $\operatorname{CF} ( \zeta - z , w ) = \frac { ( n - 1 ) ! \sum _ { k = 1 } ^ { n } ( - 1 ) ^ { k - 1 } w _ { k } d w [ k ] \wedge d \zeta } { \langle w , \zeta - z \rangle ^ { n } },$ ; confidence 0.453
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040553.png ; $\mathcal{G}$ ; confidence 0.453
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180224.png ; $\mathbf{S} ^ { 2 } \mathcal{E} \otimes \mathbf{S} ^ { 2 } \mathcal{E} \rightarrow \mathbf{A} ^ { 2 } \mathcal{E} \otimes \mathbf{A} ^ { 2 } \mathcal{E}$ ; confidence 0.452
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180224.png ; $\mathsf{S} ^ { 2 } \mathcal{E} \otimes \mathsf{S} ^ { 2 } \mathcal{E} \rightarrow \mathsf{A} ^ { 2 } \mathcal{E} \otimes \mathsf{A} ^ { 2 } \mathcal{E}$ ; confidence 0.452
 . https://www.encyclopediaofmath.org/legacyimages/s/s130/s130620/s130620207.png ; $| q ( x ) | \leq \operatorname { const } / x ^ { \beta }$ ; confidence 0.452
-. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120120/l120120180.png ; $K _ { S } ( \overline { \sigma } ) \cap K _ { \operatorname{totS} }$ ; confidence 0.452
+. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120120/l120120180.png ; $K _ { s } ( \overline { \sigma } ) \cap K _ { \operatorname{tot}S }$ ; confidence 0.452
 . https://www.encyclopediaofmath.org/legacyimages/f/f120/f120230/f12023040.png ; $D ( f . \omega ) = f . D ( \omega )$ ; confidence 0.452
@@ Line 196: / Line 196: @@
 . https://www.encyclopediaofmath.org/legacyimages/z/z130/z130080/z13008042.png ; $k \geq l $ ; confidence 0.452
-. https://www.encyclopediaofmath.org/legacyimages/f/f110/f110160/f11016019.png ; $f _ { \mathfrak{U} } ( k )$ ; confidence 0.451
+. https://www.encyclopediaofmath.org/legacyimages/f/f110/f110160/f11016019.png ; $f _ { \mathfrak{A} } ( k )$ ; confidence 0.451
 . https://www.encyclopediaofmath.org/legacyimages/k/k120/k120050/k12005065.png ; $g : \mathbf{P} ^ { 1 } \rightarrow X$ ; confidence 0.451
@@ Line 204: / Line 204: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b130/b130280/b13028045.png ; $n \not \equiv \pm 1$ ; confidence 0.451
-. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120170/a12017014.png ; $p ( \alpha , t ) = \left\{ \begin{array} { l l } { p _ { 0 } ( \alpha - t ) \frac { \Pi ( \alpha ) } { \Pi ( \alpha - t ) } } & { \text { if } \alpha \geq t, } \\ { b ( t - \alpha ) \Pi ( \alpha ) } & { \text { if } \alpha < t, } \end{array} \right.$ ; confidence 0.451
+. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120170/a12017014.png ; $p ( a , t ) = \left\{ \begin{array} { l l } { p _ { 0 } ( a - t ) \frac { \Pi ( a ) } { \Pi ( a - t ) } } & { \text { if } a \geq t, } \\ { b ( t - a ) \Pi ( a ) } & { \text { if } a < t, } \end{array} \right.$ ; confidence 0.451
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180390.png ; $( \tilde { M } , \tilde{g} )$ ; confidence 0.451
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180390.png ; $( \widetilde { M } , \widetilde{g} )$ ; confidence 0.451
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120160/a12016027.png ; $u$ ; confidence 0.451
@@ Line 212: / Line 212: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130310/a13031025.png ; $X _ { 1 } , X _ { 2 } , \dots$ ; confidence 0.451
-. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120120/l120120112.png ; $V ( K _ { p } )$ ; confidence 0.451
+. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120120/l120120112.png ; $V ( K _ { \text{p} } )$ ; confidence 0.451
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130180/a130180107.png ; $\dot { i } < n$ ; confidence 0.451
@@ Line 224: / Line 224: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b015/b015120/b01512011.png ; $V ^ { n }$ ; confidence 0.451
-. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130060/g13006044.png ; $| \lambda - \alpha _ { i  , i} | . | x _ { i } | \leq \sum _ { \substack{j = 1 \\ j \neq i }} ^ { n } | \alpha _ { i  , j} | \cdot | x _ { j } | \leq r _ { i } ( A ) \cdot | x _ { i } |,$ ; confidence 0.451
+. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130060/g13006044.png ; $| \lambda - a _ { i  , i} | . | x _ { i } | \leq \sum _ { \substack{j = 1 \\ j \neq i }} ^ { n } | a _ { i  , j} | . | x _ { j } | \leq r _ { i } ( A ) . | x _ { i } |,$ ; confidence 0.451
 . https://www.encyclopediaofmath.org/legacyimages/w/w120/w120110/w120110178.png ; $a ^ { w } = \operatorname{Op} ( b )$ ; confidence 0.451
@@ Line 230: / Line 230: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120150/b12015021.png ; $( x _ { 1 } , \dots , x _ { n } ) \in \{ 0,1 \} ^ { n }$ ; confidence 0.450
-. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130060/a130060151.png ; $P _ { F } ^ { \# } ( n )$ ; confidence 0.450
+. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130060/a130060151.png ; $\mathcal{P} _ { \text{F} } ^ { \# } ( n )$ ; confidence 0.450
-. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130040/s13004010.png ; $SL ( 2 , \mathbf{Q} )$ ; confidence 0.450
+. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130040/s13004010.png ; $\operatorname{SL} ( 2 , \mathbf{Q} )$ ; confidence 0.450
 . https://www.encyclopediaofmath.org/legacyimages/e/e130/e130070/e13007046.png ; $H \in \mathbf{N}$ ; confidence 0.450
@@ Line 238: / Line 238: @@
 . https://www.encyclopediaofmath.org/legacyimages/l/l120/l120120/l120120148.png ; $\overline { \sigma } \in G ( K ) ^ { e }$ ; confidence 0.450
-. https://www.encyclopediaofmath.org/legacyimages/v/v096/v096900/v096900158.png ; $\zeta \in \mathbf{Z} _ { p }$ ; confidence 0.450
+. https://www.encyclopediaofmath.org/legacyimages/v/v096/v096900/v096900158.png ; $\zeta \in Z _ { p }$ ; confidence 0.450
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120120/b12012017.png ; $\mathcal{R} ( t ) = \tau ^ { - 1 _ { t , v } } \circ R ( t ) \circ \tau _ { t , v }$ ; confidence 0.450
@@ Line 256: / Line 256: @@
 . https://www.encyclopediaofmath.org/legacyimages/q/q120/q120020/q1200201.png ; $\mathcal{G} = \operatorname { Fun } _ { q } ( G ( k , n ) )$ ; confidence 0.450
-. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120060/t12006070.png ; $E ^ { TF } ( N ) > \sum _ { j = 1 } ^ { K } E _ { atom } ^ { TF } ( N _ { j } , Z _ { j } ),$ ; confidence 0.450
+. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120060/t12006070.png ; $E ^ { \operatorname{TF} } ( N ) > \sum _ { j = 1 } ^ { K } E _ { \operatorname{atom} } ^ { \operatorname{TF} } ( N _ { j } , Z _ { j } ),$ ; confidence 0.450
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120230/s1202304.png ; $X := \Gamma X$ ; confidence 0.450
@@ Line 262: / Line 262: @@
 . https://www.encyclopediaofmath.org/legacyimages/f/f120/f120240/f1202405.png ; $s + T$ ; confidence 0.450
-. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l13010060.png ; $\alpha \otimes \hat { f } : = \int _ { - \infty } ^ { \infty } \alpha ( x , \alpha , p - q ) \hat { f } ( q ) d q$ ; confidence 0.450
+. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l13010060.png ; $a \otimes \hat { f } : = \int _ { - \infty } ^ { \infty } a ( x , \alpha , p - q ) \hat { f } ( q ) d q$ ; confidence 0.450
 . https://www.encyclopediaofmath.org/legacyimages/a/a011/a011650/a011650376.png ; $f _ { 1 } , \ldots , f _ { m }$ ; confidence 0.449
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120300/b12030074.png ; $\{ e ^ { i \eta , y } \phi _ { m } ( y ; \eta ) \}$ ; confidence 0.449
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120300/b12030074.png ; $\{ e ^ { i \eta . y } \phi _ { m } ( y ; \eta ) \}$ ; confidence 0.449
-. https://www.encyclopediaofmath.org/legacyimages/a/a110/a110400/a11040055.png ; $T$ ; confidence 0.449
+. https://www.encyclopediaofmath.org/legacyimages/a/a110/a110400/a11040055.png ; $\mathbf{T}$ ; confidence 0.449
 . https://www.encyclopediaofmath.org/legacyimages/o/o130/o130060/o130060187.png ; $\left( \sigma _ { 2 } \frac { \partial } { \partial t _ { 1 } } - \sigma _ { 1 } \frac { \partial } { \partial t _ { 2 } } + \gamma \right) u = 0.$ ; confidence 0.449
@@ Line 274: / Line 274: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120160/a120160124.png ; $\mu _ { i }$ ; confidence 0.449
-. https://www.encyclopediaofmath.org/legacyimages/j/j120/j120020/j120020212.png ; $\{ l_j \}$ ; confidence 0.449
+. https://www.encyclopediaofmath.org/legacyimages/j/j120/j120020/j120020212.png ; $\{ I_j \}$ ; confidence 0.449
 . https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i120080132.png ; $J _ { i j } > 0$ ; confidence 0.449
@@ Line 284: / Line 284: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120190/c12019025.png ; $\varphi : \Gamma ^ { q + 1 } \rightarrow \mathbf{C}$ ; confidence 0.449
-. https://www.encyclopediaofmath.org/legacyimages/h/h120/h120040/h1200409.png ; $A \cap B = * \emptyset$ ; confidence 0.449
+. https://www.encyclopediaofmath.org/legacyimages/h/h120/h120040/h1200409.png ; $A \cap B =_{*} \emptyset$ ; confidence 0.449
 . https://www.encyclopediaofmath.org/legacyimages/j/j120/j120020/j12002063.png ; $( A ^ { * } X ) _ { t } = \int _ { 0 } ^ { t } A H _ { s } . d B _ { s }$ ; confidence 0.449
-. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120080/a1200807.png ; $\alpha_{i,j} ( x ) = \alpha _ { j , i } ( x )$ ; confidence 0.448
+. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120080/a1200807.png ; $a_{i,j} ( x ) = a _ { j , i } ( x )$ ; confidence 0.448
 . https://www.encyclopediaofmath.org/legacyimages/f/f130/f130240/f13024045.png ; $\left( \begin{array} { r r } { 0 } & { 0 } \\ { - \varepsilon K ( c , d ) } & { 0 } \end{array} \right).$ ; confidence 0.448
@@ Line 294: / Line 294: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120240/b12024024.png ; $\delta ( z ) = \operatorname { diag } ( z ^ { k _ { 1 } } , \ldots , z ^ { k _ { n } } )$ ; confidence 0.448
-. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120060/t120060100.png ; $= Z ^ { 2 } \rho _ { \text { atom } } ^ { TF } ( Z ^ { 1 / 3 } x ; N = \lambda , Z = 1 ).$ ; confidence 0.448
+. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120060/t120060100.png ; $= Z ^ { 2 } \rho _ { \text { atom } } ^ { \operatorname{TF} } ( Z ^ { 1 / 3 } x ; N = \lambda , Z = 1 ).$ ; confidence 0.448
 . https://www.encyclopediaofmath.org/legacyimages/s/s130/s130530/s13053063.png ; $q = p , p ^ { 2 } , p ^ { 3 } , . .$ ; confidence 0.448
@@ Line 304: / Line 304: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180452.png ; $P \in N$ ; confidence 0.448
-. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130060/g13006091.png ; $| \lambda - \alpha _ { i  , i} | = r _ { i } ( A ) \text { for each } 1 \leq i \leq n.$ ; confidence 0.448
+. https://www.encyclopediaofmath.org/legacyimages/g/g130/g130060/g13006091.png ; $| \lambda - a _ { i  , i} | = r _ { i } ( A ) \text { for each } 1 \leq i \leq n.$ ; confidence 0.448
 . https://www.encyclopediaofmath.org/legacyimages/c/c110/c110350/c11035012.png ; $\mu _ { x }$ ; confidence 0.448
@@ Line 314: / Line 314: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120200/a12020040.png ; $t _ { 1 } , \ldots , t _ { n }$ ; confidence 0.448
-. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130040/c13004010.png ; $z \in C \backslash \mathbf{Z} _ { 0 }^- , \quad \mathbf{Z} _ { 0 } ^ { - } : = \{ 0 , - 1 , - 2 , \ldots \},$ ; confidence 0.448
+. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130040/c13004010.png ; $z \in \mathbf{C} \backslash \mathbf{Z} _ { 0 }^- , \quad \mathbf{Z} _ { 0 } ^ { - } : = \{ 0 , - 1 , - 2 , \ldots \},$ ; confidence 0.448
 . https://www.encyclopediaofmath.org/legacyimages/m/m120/m120070/m12007051.png ; $m ( P ) \geq c_0$ ; confidence 0.448
@@ Line 324: / Line 324: @@
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120240/s12024041.png ; $X \subset S ^ { n}$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120310/b12031068.png ; $f \in L ^ { p } ( \mathcal{T} ^ { N } )$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120310/b12031068.png ; $f \in L ^ { p } ( \mathcal{T} ^ { n } )$ ; confidence 0.447
 . https://www.encyclopediaofmath.org/legacyimages/z/z130/z130110/z130110145.png ; $\frac { \mu _ { n } ( x ) } { \mu _ { n } } \rightarrow \frac { \int _ { - \infty } ^ { \infty } \alpha ^ { s ( x + \beta ) } e ^ { - \alpha ^ { s } } d N ( s ) } { \Gamma ( x + 1 ) \int _ { - \infty } ^ { \infty } \alpha ^ { s  \beta } e ^ { - \alpha ^ { s } } d N ( s ) },$ ; confidence 0.447
@@ Line 340: / Line 340: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120310/c12031028.png ; $| \alpha | = \sum _ { l = 1 } ^ { d  } \alpha _ { l }$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120010/t120010136.png ; $p = ( p _ { 1 } , \dots , p _ { n  + 2} )$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120010/t120010136.png ; $\operatorname{p} = ( p _ { 1 } , \dots , p _ { n  + 2} )$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/p/p120/p120150/p12015028.png ; $12$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/p/p120/p120150/p12015028.png ; $r_2$ ; confidence 0.447
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120200/c12020043.png ; $( W , J ^ { \prime } )$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w13008041.png ; $\psi ( P ) = \operatorname { exp } ( \sum t _ { n } \Omega _ { n } ) \phi ( \sum t _ { n } \vec { V } _ { n } , P ),$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w13008041.png ; $\psi ( P ) = \operatorname { exp } \left( \sum t _ { n } \Omega _ { n } \right) \phi \left( \sum t _ { n } \overset{\rightharpoonup}{ V } _ { n } , P \right) ,$ ; confidence 0.447
 . https://www.encyclopediaofmath.org/legacyimages/p/p120/p120170/p12017018.png ; $\hat { A } = A \oplus B$ ; confidence 0.447
@@ Line 354: / Line 354: @@
 . https://www.encyclopediaofmath.org/legacyimages/h/h130/h130060/h13006063.png ; $R_0 ( X , D ) \otimes \mathbf{Q}$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/d/d030/d030290/d03029021.png ; $\alpha \leq x _ { 1 } < \ldots < x _ { m } \leq b$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/d/d030/d030290/d03029021.png ; $a \leq x _ { 1 } < \ldots < x _ { m } \leq b$ ; confidence 0.447
-. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130060/i130060137.png ; $k [ 1 - S ( k ) + \frac { Q } { i k } ] \in L ^ { 2 } ( \mathbf{R} ),$ ; confidence 0.447
+. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130060/i130060137.png ; $k \left[ 1 - S ( k ) + \frac { Q } { i k } \right] \in L ^ { 2 } ( \mathbf{R} ),$ ; confidence 0.447
 . https://www.encyclopediaofmath.org/legacyimages/b/b130/b130110/b13011020.png ; $\{ b _ { j } ^ { n } : j = 0 , \dots , n \}$ ; confidence 0.447
@@ Line 362: / Line 362: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a120/a120150/a12015041.png ; $g \in G , X , Y \in \mathfrak { g }.$ ; confidence 0.446
-. https://www.encyclopediaofmath.org/legacyimages/k/k130/k130060/k13006010.png ; $0 \leq \alpha _ { 1 } < \ldots < \alpha _ { k } \leq n - 1$ ; confidence 0.446
+. https://www.encyclopediaofmath.org/legacyimages/k/k130/k130060/k13006010.png ; $0 \leq a _ { 1 } < \ldots < a _ { k } \leq n - 1$ ; confidence 0.446
 . https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i12008090.png ; $Z \rightarrow \lambda _ { + } ^ { N } $ ; confidence 0.446
@@ Line 388: / Line 388: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c021/c021110/c02111018.png ; $\cup_ \lambda X_ \lambda$ ; confidence 0.446
-. https://www.encyclopediaofmath.org/legacyimages/a/a012/a012200/a012200126.png ; $\tilde { f }$ ; confidence 0.446
+. https://www.encyclopediaofmath.org/legacyimages/a/a012/a012200/a012200126.png ; $\widetilde { f }$ ; confidence 0.446
-. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130180/m13018039.png ; $\phi ( n ) = \sum _ { d | n } d \mu ( \frac { n } { d } ).$ ; confidence 0.446
+. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130180/m13018039.png ; $\phi ( n ) = \sum _ { d | n } d \mu \left( \frac { n } { d } \right) .$ ; confidence 0.446
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120170/c12017047.png ; $a _ { 0 } + a _ { 1 } t + \ldots + a _ { n } t ^ { n }$ ; confidence 0.445
@@ Line 402: / Line 402: @@
 . https://www.encyclopediaofmath.org/legacyimages/j/j120/j120020/j1200207.png ; $\| f \| _ { H ^ { p } } ^ { p } : = \frac { 1 } { 2 \pi } \operatorname { sup } _ { r < 1 } \int _ { - \pi } ^ { \pi } | f ( r e ^ { i \vartheta } ) | ^ { p } d \vartheta$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120070/q120070112.png ; $k ( a , b , c , d )$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/q/q120/q120070/q120070112.png ; $k \langle a , b , c , d \rangle $ ; confidence 0.445
 . https://www.encyclopediaofmath.org/legacyimages/v/v130/v130050/v13005076.png ; $V = \oplus _ { n \in \mathbf{Z} } V _ { ( n ) }$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180501.png ; $\tilde{g} \in \mathbf{S} ^ { 2 } \mathcal{E}$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180501.png ; $\tilde{g} \in \mathsf{S} ^ { 2 } \mathcal{E}$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/w/w120/w120090/w120090346.png ; $\mathcal{U} _ { K } = K \otimes _Z \mathcal{U} _ { Z }$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/w/w120/w120090/w120090346.png ; $\mathcal{U} _ { K } = K \otimes _\mathbf{Z} \mathcal{U} _ { \mathbf{Z} }$ ; confidence 0.445
 . https://www.encyclopediaofmath.org/legacyimages/i/i130/i130060/i130060144.png ; $\mathbf{C} _ { - } : = \{ k : \operatorname { Im } k < 0 \}$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120110/f12011088.png ; $U \# _j \Omega = U \cap \{ \operatorname { Im } z _ { k } \neq 0 : k \neq j \}.$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120110/f12011088.png ; $U \# _j \Omega = U \bigcap \{ \operatorname { Im } z _ { k } \neq 0 : k \neq j \}.$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130040/j13004096.png ; $P _ { 4 _ { 1 } } ( v , z ) - 1 = ( v ^ { - 1 } - v ) ^ { 2 } - z ^ { 2 } = - v ^ { - 2 } ( P _ { 3_1 } ( v , z ) - 1 ) = - v ^ { 2 } ( P _ { 3_1 } ( v , z ) - 1 )$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130040/j13004096.png ; $P _ { 4 _ { 1 } } ( v , z ) - 1 = ( v ^ { - 1 } - v ) ^ { 2 } - z ^ { 2 } = - v ^ { - 2 } ( P _ { 3_1 } ( v , z ) - 1 ) = - v ^ { 2 } ( P _ { \overline{3}_1 } ( v , z ) - 1 )$ ; confidence 0.445
 . https://www.encyclopediaofmath.org/legacyimages/c/c130/c130160/c13016070.png ; $2 ^ { O ( s ( n ) ) }$ ; confidence 0.445
@@ Line 422: / Line 422: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120210/c120210145.png ; $\{ P _ { \alpha _ { n }  } , \theta \}$ ; confidence 0.445
-. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130020/i13002050.png ; $y = ( y _ { 1 } , \dots , y _ { m } ) ^ { T }$ ; confidence 0.445
+. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130020/i13002050.png ; $\mathbf{y} = ( y _ { 1 } , \dots , y _ { m } ) ^ { T }$ ; confidence 0.445
 . https://www.encyclopediaofmath.org/legacyimages/b/b120/b120160/b12016035.png ; $x _ { j } ^ { \prime } \not\equiv 0$ ; confidence 0.445
@@ Line 432: / Line 432: @@
 . https://www.encyclopediaofmath.org/legacyimages/c/c120/c120260/c12026076.png ; $u _ { h } ^ { 0 }$ ; confidence 0.444
-. https://www.encyclopediaofmath.org/legacyimages/l/l110/l110040/l11004019.png ; $G \in \mathbf{L}$ ; confidence 0.444
+. https://www.encyclopediaofmath.org/legacyimages/l/l110/l110040/l11004019.png ; $G \in \mathcal{L}$ ; confidence 0.444
 . https://www.encyclopediaofmath.org/legacyimages/b/b130/b130110/b1301105.png ; $b _ { j } ^ { n } ( x ) : = \left( \begin{array} { c } { n } \\ { j } \end{array} \right) x ^ { j } ( 1 - x ) ^ { n - j } , j = 0 , \ldots , n.$ ; confidence 0.444
-. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130050/i13005017.png ; $lu _ { + } -  { k } ^ { 2 } u _ { + } = 0 , x \in \mathbf{R},$ ; confidence 0.444
+. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130050/i13005017.png ; $\text{l}u _ { + } -  { k } ^ { 2 } u _ { + } = 0 , x \in \mathbf{R},$ ; confidence 0.444
 . https://www.encyclopediaofmath.org/legacyimages/l/l110/l110020/l11002055.png ; $a \preceq b _ { 1 } \ldots b _ { n }$ ; confidence 0.444
@@ Line 444: / Line 444: @@
 . https://www.encyclopediaofmath.org/legacyimages/g/g130/g130010/g13001041.png ; $f = x ^ { n } + a _ { n - 1 } x ^ { n - 1 } + \ldots + a _ { 1 } x + a _ { 0 }$ ; confidence 0.444
-. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130060/o13006016.png ; $\sigma _ { 1 } \Phi A _ { 2 } - \sigma _ { 2 } \Phi A _ { 1 } = \tilde { \gamma } \Phi,$ ; confidence 0.444
+. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130060/o13006016.png ; $\sigma _ { 1 } \Phi A _ { 2 } - \sigma _ { 2 } \Phi A _ { 1 } = \widetilde { \gamma } \Phi,$ ; confidence 0.444
 . https://www.encyclopediaofmath.org/legacyimages/e/e120/e120190/e120190129.png ; $g ( a , b ) \subseteq T$ ; confidence 0.444
@@ Line 470: / Line 470: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040195.png ; $\operatorname{Mod} ^ { * S}   { \mathcal{D} }$ ; confidence 0.443
-. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130090/t13009020.png ; $\rho _ { X } \circ \pi _ { Y } ( \alpha ) = \rho _ { X } ( \alpha )$ ; confidence 0.443
+. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130090/t13009020.png ; $\rho _ { X } \circ \pi _ { Y } ( a ) = \rho _ { X } ( a )$ ; confidence 0.443
 . https://www.encyclopediaofmath.org/legacyimages/f/f120/f120090/f12009016.png ; $\mu \in \mathcal{H} ( \mathbf{C} ^ { n } ) ^ { \prime }$ ; confidence 0.443
@@ Line 476: / Line 476: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a130/a130240/a130240229.png ; $\zeta _ { q  + 1} , \dots , \zeta _ { r }$ ; confidence 0.443
-. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130200/b13020023.png ; $\alpha _ { i j } \in \mathbf{R}$ ; confidence 0.443
+. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130200/b13020023.png ; $a _ { i j } \in \mathbf{R}$ ; confidence 0.443
 . https://www.encyclopediaofmath.org/legacyimages/o/o120/o120060/o12006075.png ; $W_ { m } ^ { k } ( \Omega )$ ; confidence 0.443
@@ Line 488: / Line 488: @@
 . https://www.encyclopediaofmath.org/legacyimages/w/w130/w130080/w130080171.png ; $F B ( \sigma _ { g } , G )$ ; confidence 0.443
-. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180472.png ; $\tilde { N } = N _ { 0 } \times ( - 1 , + 1 )$ ; confidence 0.443
+. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c120180472.png ; $\widetilde { N } = N _ { 0 } \times ( - 1 , + 1 )$ ; confidence 0.443
 . https://www.encyclopediaofmath.org/legacyimages/m/m130/m130190/m13019041.png ; $\phi _ { 0 } , \phi _ { 1 } , \ldots$ ; confidence 0.443
@@ Line 496: / Line 496: @@
 . https://www.encyclopediaofmath.org/legacyimages/s/s120/s120050/s12005066.png ; $K_ S ( w , z ) = [ 1 - S ( z ) \overline { S ( w ) } ] / ( 1 - z \overline { w } )$ ; confidence 0.443
-. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l1301005.png ; $\hat { f } ( \alpha , p ) = \int _ { \operatorname { lop } } f ( x ) d s : = R f$ ; confidence 0.443
+. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l1301005.png ; $\hat { f } ( \alpha , p ) = \int _ { \operatorname { l}_{\alpha p} } f ( x ) d s : = R f$ ; confidence 0.443
-. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120210/b12021026.png ; $D _ { k } = U ( a ) \otimes _ { C } \wedge ^ { k } ( a )$ ; confidence 0.442
+. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120210/b12021026.png ; $D _ { k } = U ( \mathfrak{a} ) \otimes _ { \mathbf{C} } \wedge ^ { k } ( \mathfrak{a} )$ ; confidence 0.442
-. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120230/e120230149.png ; $\mathbf{Z}^k$ ; confidence 0.442
+. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120230/e120230149.png ; $Z^k$ ; confidence 0.442
-. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120180/a12018018.png ; $\alpha _ { 1 } ( S _ { n } - S ) + \alpha _ { 2 } ( S _ { n + 1 } - S ) = 0$ ; confidence 0.442
+. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120180/a12018018.png ; $a _ { 1 } ( S _ { n } - S ) + a _ { 2 } ( S _ { n + 1 } - S ) = 0$ ; confidence 0.442
 . https://www.encyclopediaofmath.org/legacyimages/z/z130/z130010/z13001075.png ; $z \operatorname{sinh} w/  ( z ^ { 2 } - 2 z \operatorname { cosh } w + 1 )$ ; confidence 0.442
@@ Line 520: / Line 520: @@
 . https://www.encyclopediaofmath.org/legacyimages/r/r130/r130160/r1301606.png ; $\mathcal{I} _ { S }$ ; confidence 0.442
-. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120090/e12009018.png ; $E = ( E _ { X } , E _ { y } , E _ { z } )$ ; confidence 0.442
+. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120090/e12009018.png ; $E = ( E _ { x } , E _ { y } , E _ { z } )$ ; confidence 0.442
-. https://www.encyclopediaofmath.org/legacyimages/x/x120/x120010/x12001041.png ; $G _ { i n n } \triangleleft G$ ; confidence 0.442
+. https://www.encyclopediaofmath.org/legacyimages/x/x120/x120010/x12001041.png ; $G _ { \operatorname{inn} } \triangleleft G$ ; confidence 0.442
 . https://www.encyclopediaofmath.org/legacyimages/j/j130/j130010/j13001043.png ; $\langle D | f \rangle = ( - 1 ) ^ { | f | } -  z ^{ | f | - \operatorname { com } ( D _ { f , 1 } ) - \operatorname { com } ( D _ { f , 2 } ) + \operatorname { com } ( D )}$ ; confidence 0.442
@@ Line 534: / Line 534: @@
 . https://www.encyclopediaofmath.org/legacyimages/y/y120/y120040/y1200406.png ; $= \int _ { \Omega } \int _ { \mathbf{R} ^ { d } } \varphi ( x , \lambda ) d \nu _ { x } ( \lambda ) d x,$ ; confidence 0.441
-. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130190/m13019049.png ; $\phi _ { N } ( z ) = \kappa _ { n } f _ { n } ( z ) +\dots $ ; confidence 0.441
+. https://www.encyclopediaofmath.org/legacyimages/m/m130/m130190/m13019049.png ; $\phi _ { n } ( z ) = \kappa _ { n } f _ { n } ( z ) +\dots $ ; confidence 0.441
-. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040351.png ; $x \leftrightarrow T$ ; confidence 0.441
+. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040351.png ; $x \leftrightarrow \top $ ; confidence 0.441
-. https://www.encyclopediaofmath.org/legacyimages/e/e130/e130010/e1300109.png ; $f ^ { \rho } = \alpha _ { 1 } f _ { 1 } + \ldots + a _ { m } f _ { m }.$ ; confidence 0.441
+. https://www.encyclopediaofmath.org/legacyimages/e/e130/e130010/e1300109.png ; $f ^ { \rho } = a _ { 1 } f _ { 1 } + \ldots + a _ { m } f _ { m }.$ ; confidence 0.441
 . https://www.encyclopediaofmath.org/legacyimages/w/w120/w120100/w1201002.png ; $\square ^ { '' } \Gamma$ ; confidence 0.441
@@ Line 548: / Line 548: @@
 . https://www.encyclopediaofmath.org/legacyimages/s/s130/s130140/s1301405.png ; $l \geq n$ ; confidence 0.441
-. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130010/o1300108.png ; $u = e ^ { i k \alpha x } + v , \operatorname { lim } _ { r \rightarrow \infty } \int _ { | s | = r } | \frac { \partial v } { \partial | x | } - i k v | ^ { 2 } d s = 0.$ ; confidence 0.441
+. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130010/o1300108.png ; $u = e ^ { i k \alpha x } + v , \operatorname { lim } _ { r \rightarrow \infty } \int _ { | s | = r } \left| \frac { \partial v } { \partial | x | } - i k v \right| ^ { 2 } d s = 0.$ ; confidence 0.441
 . https://www.encyclopediaofmath.org/legacyimages/h/h120/h120020/h12002090.png ; $\mathcal{S} _ { p }$ ; confidence 0.441
@@ Line 558: / Line 558: @@
 . https://www.encyclopediaofmath.org/legacyimages/a/a110/a110040/a11004095.png ; $d \geq 1$ ; confidence 0.441
-. https://www.encyclopediaofmath.org/legacyimages/d/d120/d120020/d120020134.png ; $g ( \overline { u } _ { 1 } ) = v ^ { * } = \overline { q } = v _ { M }$ ; confidence 0.440
+. https://www.encyclopediaofmath.org/legacyimages/d/d120/d120020/d120020134.png ; $g ( \overline { u } _ { 1 } ) = v ^ { * } = \overline { q } = v _ { \text{M} }$ ; confidence 0.440
 . https://www.encyclopediaofmath.org/legacyimages/d/d120/d120230/d120230102.png ; $A = Z$ ; confidence 0.440
@@ Line 564: / Line 564: @@
 . https://www.encyclopediaofmath.org/legacyimages/m/m130/m130220/m13022066.png ; $Q _ { n } ( T _ { g } ( z ) ) - q ^ { - n }$ ; confidence 0.440
-. https://www.encyclopediaofmath.org/legacyimages/k/k055/k055840/k055840357.png ; $G = ( D _ { B } ^ { A^* } )$ ; confidence 0.440
+. https://www.encyclopediaofmath.org/legacyimages/k/k055/k055840/k055840357.png ; $G = ( \square _ { B } ^ { A^* } )$ ; confidence 0.440
 . https://www.encyclopediaofmath.org/legacyimages/f/f110/f110150/f110150105.png ; $\overline{b}$ ; confidence 0.440
-. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130180/d13018061.png ; $I _ { X }$ ; confidence 0.440
+. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130180/d13018061.png ; $I _ { x }$ ; confidence 0.440
 . https://www.encyclopediaofmath.org/legacyimages/z/z130/z130110/z13011099.png ; $\lambda = \frac { ( 1 - \alpha ) ( k + d n _ { k } ) } { ( k + cn _ { k } ) }$ ; confidence 0.440
@@ Line 574: / Line 574: @@
 . https://www.encyclopediaofmath.org/legacyimages/g/g120/g120030/g12003014.png ; $\xi _ { 1 } , \dots , \xi _ { n + 1}$ ; confidence 0.440
-. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130150/t13015070.png ; $C ^ { * } E ( S ) \otimes _ { \delta } C _ { 0 } ( S )$ ; confidence 0.440
+. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130150/t13015070.png ; $C ^ { * _ E} ( S ) \otimes _ { \delta } \mathcal{C} _ { 0 } ( S )$ ; confidence 0.440
 . https://www.encyclopediaofmath.org/legacyimages/l/l120/l120100/l1201008.png ; $\sum _ { j \geq 1 } | e _ { j } | ^ { \gamma } \leq L _ { \gamma , n } \int _ { \mathbf{R} ^ { n } } V _ { - } ( x ) ^ { \gamma + n / 2 } d x$ ; confidence 0.440
@@ Line 584: / Line 584: @@
 . https://www.encyclopediaofmath.org/legacyimages/b/b130/b130270/b13027054.png ; $K_*$ ; confidence 0.440
-. https://www.encyclopediaofmath.org/legacyimages/f/f130/f130240/f13024023.png ; $\mathbf{k} : = \{ K ( a , b ) \} _ { span }$ ; confidence 0.440
+. https://www.encyclopediaofmath.org/legacyimages/f/f130/f130240/f13024023.png ; $\mathbf{k} : = \{ K ( a , b ) \} _ { \text{span} }$ ; confidence 0.440
 . https://www.encyclopediaofmath.org/legacyimages/a/a014/a014090/a014090261.png ; $x \in \mathbf{R} ^ { n }$ ; confidence 0.440