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Difference between revisions of "User:Maximilian Janisch/latexlist/latex/NoNroff/37"

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63. https://www.encyclopediaofmath.org/legacyimages/d/d110/d110080/d11008068.png ; $e ( w ^ { H _ { i } } | v ^ { H _ { i } } ) = e ( w | v )$ ; confidence 0.855
 
63. https://www.encyclopediaofmath.org/legacyimages/d/d110/d110080/d11008068.png ; $e ( w ^ { H _ { i } } | v ^ { H _ { i } } ) = e ( w | v )$ ; confidence 0.855
  
64. https://www.encyclopediaofmath.org/legacyimages/o/o120/o120020/o12002013.png ; $\omega ( \tau ) = \frac { \tau } { \operatorname { sinh } ( \pi \tau ) } \left| \frac { \Gamma ( c - \alpha + \frac { i \tau } { 2 } ) } { \Gamma ( a + \frac { i \tau } { 2 } ) } \right| ^ { 2 } .$ ; confidence 0.855
+
64. https://www.encyclopediaofmath.org/legacyimages/o/o120/o120020/o12002013.png ; $\omega ( \tau ) = \frac { \tau } { \operatorname { sinh } ( \pi \tau ) } \left| \frac { \Gamma ( c - a + \frac { i \tau } { 2 } ) } { \Gamma ( a + \frac { i \tau } { 2 } ) } \right| ^ { 2 } .$ ; confidence 0.855
  
 
65. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130160/c130160144.png ; $s ( n )$ ; confidence 0.855
 
65. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130160/c130160144.png ; $s ( n )$ ; confidence 0.855
Line 360: Line 360:
 
180. https://www.encyclopediaofmath.org/legacyimages/e/e035/e035000/e03500040.png ; $\epsilon ^ { N } ( C )$ ; confidence 0.849
 
180. https://www.encyclopediaofmath.org/legacyimages/e/e035/e035000/e03500040.png ; $\epsilon ^ { N } ( C )$ ; confidence 0.849
  
181. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130060/w13006032.png ; $\frac { 1 } { 2 \pi ^ { 2 } } \omega_{ WP},$ ; confidence 0.849
+
181. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130060/w13006032.png ; $\frac { 1 } { 2 \pi ^ { 2 } } \omega_{ \text{WP}},$ ; confidence 0.849
  
 
182. https://www.encyclopediaofmath.org/legacyimages/c/c025/c025830/c02583013.png ; $T _ { 0 } = T | _ { H _ { 0 } }$ ; confidence 0.849
 
182. https://www.encyclopediaofmath.org/legacyimages/c/c025/c025830/c02583013.png ; $T _ { 0 } = T | _ { H _ { 0 } }$ ; confidence 0.849
Line 404: Line 404:
 
202. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130060/i130060116.png ; $\{ f ( k ) , s _j 1 \leq j \leq J \}$ ; confidence 0.848
 
202. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130060/i130060116.png ; $\{ f ( k ) , s _j 1 \leq j \leq J \}$ ; confidence 0.848
  
203. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120040/b12004054.png ; $p _ { X } = \operatorname { lim } _ { s \rightarrow \infty } \frac { \operatorname { log } s } { \operatorname { log } \| D _ { s } \| _ { X } }$ ; confidence 0.848
+
203. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120040/b12004054.png ; $p _ { X } = \operatorname { lim } _ { s \rightarrow \infty } \frac { \operatorname { log } s } { \operatorname { log } \| D _ { s } \| _ { X } },$ ; confidence 0.848
  
 
204. https://www.encyclopediaofmath.org/legacyimages/d/d120/d120030/d12003020.png ; $b \mathcal{A} _ { p } \subset b \Delta .$ ; confidence 0.848
 
204. https://www.encyclopediaofmath.org/legacyimages/d/d120/d120030/d12003020.png ; $b \mathcal{A} _ { p } \subset b \Delta .$ ; confidence 0.848
Line 486: Line 486:
 
243. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120140/t120140158.png ; $T _ { \Phi }$ ; confidence 0.846
 
243. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120140/t120140158.png ; $T _ { \Phi }$ ; confidence 0.846
  
244. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l13010072.png ; $leq \delta$ ; confidence 0.846
+
244. https://www.encyclopediaofmath.org/legacyimages/l/l130/l130100/l13010072.png ; $\leq \delta$ ; confidence 0.846
  
 
245. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130060/o13006041.png ; $\Phi : \mathcal{H} \rightarrow \mathcal{E}$ ; confidence 0.846
 
245. https://www.encyclopediaofmath.org/legacyimages/o/o130/o130060/o13006041.png ; $\Phi : \mathcal{H} \rightarrow \mathcal{E}$ ; confidence 0.846
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248. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130040/j130040121.png ; $P _ { K } ( v , z ) \operatorname { mod } ( ( ( v ^ { 2 } - 1 ) , z ) ^ { k + 1 } )$ ; confidence 0.846
 
248. https://www.encyclopediaofmath.org/legacyimages/j/j130/j130040/j130040121.png ; $P _ { K } ( v , z ) \operatorname { mod } ( ( ( v ^ { 2 } - 1 ) , z ) ^ { k + 1 } )$ ; confidence 0.846
  
249. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040468.png ; $operatorname{CPC}_{\wedge \vee}$ ; confidence 0.846
+
249. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130040/a130040468.png ; $\operatorname{CPC}_{\wedge \vee}$ ; confidence 0.846
  
 
250. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120170/l120170155.png ; $K ^ { 2 } \times I ^ { n } \searrow \operatorname{pt}$ ; confidence 0.846
 
250. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120170/l120170155.png ; $K ^ { 2 } \times I ^ { n } \searrow \operatorname{pt}$ ; confidence 0.846
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268. https://www.encyclopediaofmath.org/legacyimages/e/e130/e130030/e13003034.png ; $\mathcal{C} _ { 0 } ( \Gamma \backslash G ( \mathbf{R} ) )$ ; confidence 0.846
 
268. https://www.encyclopediaofmath.org/legacyimages/e/e130/e130030/e13003034.png ; $\mathcal{C} _ { 0 } ( \Gamma \backslash G ( \mathbf{R} ) )$ ; confidence 0.846
  
269. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130120/w13012029.png ; $T _ { |text{W}d } = T _ { \delta }$ ; confidence 0.846
+
269. https://www.encyclopediaofmath.org/legacyimages/w/w130/w130120/w13012029.png ; $T _ { \text{W}d } = T _ { \delta }$ ; confidence 0.846
  
 
270. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010161.png ; $E \ni 0$ ; confidence 0.845
 
270. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120010/c120010161.png ; $E \ni 0$ ; confidence 0.845
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282. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130050/i13005045.png ; $\dot { a } : = d a / d  k $ ; confidence 0.845
 
282. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130050/i13005045.png ; $\dot { a } : = d a / d  k $ ; confidence 0.845
  
283. https://www.encyclopediaofmath.org/legacyimages/a/a012/a012060/a01206017.png ; $12$ ; confidence 0.844
+
283. https://www.encyclopediaofmath.org/legacyimages/a/a012/a012060/a01206017.png ; $I_2$ ; confidence 0.844
  
 
284. https://www.encyclopediaofmath.org/legacyimages/c/c022/c022800/c02280011.png ; $C_n$ ; confidence 0.844
 
284. https://www.encyclopediaofmath.org/legacyimages/c/c022/c022800/c02280011.png ; $C_n$ ; confidence 0.844

Latest revision as of 20:34, 13 May 2020

List

1. a012980121.png ; $C [ a , b ]$ ; confidence 0.857

2. s130510151.png ; $\bigcup \{ \mathbf u \in V : \sigma ( \mathbf u ) = \infty ( K ) , 0 \in K \},$ ; confidence 0.857

3. a1301304.png ; $z$ ; confidence 0.857

4. a130240354.png ; $\mathsf{E} ( \mathbf Z _ { 2 } )$ ; confidence 0.857

5. o13001080.png ; $A ( \alpha ^ { \prime } , \alpha , k ) \equiv - \frac { C } { 4 \pi } , \text { if } \Gamma u = u , k a \ll 1,$ ; confidence 0.857

6. g12004071.png ; $P ( x , D ) = \sum _ { | \alpha | \leq m } p _ { \alpha } ( x ) D _ { x } ^ { \alpha }$ ; confidence 0.857

7. o12005034.png ; $\Delta _ { 2 }$ ; confidence 0.857

8. f04049024.png ; $\nu _ { 2 } = n$ ; confidence 0.857

9. n067520205.png ; $\epsilon _ { 1 } = \ldots = \epsilon _ { r } = 1$ ; confidence 0.857

10. t120200205.png ; $\times \operatorname { min } _ { h _ { 1 } \leq j \leq h _ { 2 } } | \operatorname { Re } ( b _ { 1 } + \ldots + b _ { j } ) |.$ ; confidence 0.857

11. b01566047.png ; $+ \infty$ ; confidence 0.857

12. w13017030.png ; $\varepsilon _ { t } ^ { (i) }$ ; confidence 0.857

13. s12017076.png ; $| A | \geq k$ ; confidence 0.857

14. k055840176.png ; $\mathcal E _ { \lambda } = \mathcal E _ { \lambda } ^ { \prime } + \mathcal E _ { \lambda } ^ { \prime \prime }$ ; confidence 0.857

15. l12009019.png ; $( k , \mathcal A )$ ; confidence 0.856

16. b0166805.png ; $H _ { k }$ ; confidence 0.856

17. d12028025.png ; $\phi \in A _ { 0 } ( \overline { \mathbf{C} } \backslash D )$ ; confidence 0.856

18. i13004024.png ; $A _ { k } \downarrow 0 ( k \rightarrow \infty ) , \sum _ { k = 0 } ^ { \infty } A _ { k } < \infty , | \Delta d _ { k } | < A _ { k }.$ ; confidence 0.856

19. l05935074.png ; $W ( t )$ ; confidence 0.856

20. b12040046.png ; $F = \mathbf C$ ; confidence 0.856

21. n13002034.png ; $X \times Y _ { \alpha }$ ; confidence 0.856

22. b01703097.png ; $\phi : X \rightarrow Y$ ; confidence 0.856

23. o06820019.png ; $t \in K$ ; confidence 0.856

24. d12018019.png ; $\overline{\mathbf D }$ ; confidence 0.856

25. m13013039.png ; $\operatorname{adj}( L )$ ; confidence 0.856

26. d12002091.png ; $v _ { \operatorname{M} } \geq v ^ { * }$ ; confidence 0.856

27. a12027050.png ; $\operatorname{det}_ { \rho }$ ; confidence 0.856

28. e12016012.png ; $f = X _ { a } X ^ { a }$ ; confidence 0.856

29. w12017084.png ; $\iota \ \omega ( G ) / \omega ( G )$ ; confidence 0.856

30. a11004020.png ; $d$ ; confidence 0.856

31. b1202208.png ; $\phi \in \operatorname { Span } ( 1 , v _ { j } , | v | ^ { 2 } )$ ; confidence 0.856

32. c1200904.png ; $\langle x \rangle$ ; confidence 0.856

33. i12005057.png ; $\operatorname { lim } _ { n \rightarrow \infty } H ( \theta _ { n } , \Theta _ { 0 } ) = 0 , \operatorname { lim } _ { n \rightarrow \infty } n H ^ { 2 } ( \theta _ { n } , \Theta _ { 0 } ) = \infty ,$ ; confidence 0.856

34. l11001090.png ; $x , y \in P$ ; confidence 0.856

35. k05508020.png ; $\omega = \frac { i } { 2 } \sum _ { \mu , \nu } h _ { \mu \nu } ( z ) d z _ { \mu } \bigwedge d \overline{z} _ { \nu }.$ ; confidence 0.856

36. a13007010.png ; $2 ^ { n } p$ ; confidence 0.856

37. a130240513.png ; $\mathbf{T} _ { 2 }$ ; confidence 0.856

38. m1301407.png ; $f \in C ( R ^ { n } )$ ; confidence 0.856

39. x12001095.png ; $R * G$ ; confidence 0.856

40. b11022049.png ; $k ^ { j }$ ; confidence 0.856

41. c02176022.png ; $Y _ { 2 }$ ; confidence 0.855

42. b12031089.png ; $\lim _R S _ { R } ^ { ( n - 1 ) / 2 } f ( x _ { 0 } ) = f ( x _ { 0 } )$ ; confidence 0.855

43. d120280123.png ; $A ( D ) ^ { * } \simeq H ^ { n , n - 1 } ( \mathbf{C} ^ { n } \backslash D ),$ ; confidence 0.855

44. i12006081.png ; $e = \{ x , y \}$ ; confidence 0.855

45. s120320112.png ; $\operatorname { Ber } ( T ^ { \text{st} } ) = \operatorname { Ber } ( T )$ ; confidence 0.855

46. m1300701.png ; $P ^ { \mu }$ ; confidence 0.855

47. c026010411.png ; $N = \infty$ ; confidence 0.855

48. s13064018.png ; $T _ { n } ( a )$ ; confidence 0.855

49. b01642032.png ; $B ( a , b )$ ; confidence 0.855

50. f12023058.png ; $\Omega ^ { * + 1 } ( M , T M )$ ; confidence 0.855

51. f120110129.png ; $\operatorname { exp } e ^ { \zeta ^ { 2 } }$ ; confidence 0.855

52. c13019057.png ; $( B ^ { k } \times B ^ { n - k } , S ^ { k - 1 } \times B ^ { n - k } )$ ; confidence 0.855

53. b12009032.png ; $\frac { d f } { f } = \frac { d \xi } { \xi } - i a \frac { d \tau } { \tau }.$ ; confidence 0.855

54. f120150214.png ; $B = T$ ; confidence 0.855

55. b120210147.png ; $H ^ { i } ( \mathfrak { h } ^ { - } , L )$ ; confidence 0.855

56. c12017076.png ; $z, \overline{z}$ ; confidence 0.855

57. b130300168.png ; $C _ { B ( m , n ) } ( S )$ ; confidence 0.855

58. d130080155.png ; $k _ { D }$ ; confidence 0.855

59. m13018019.png ; $g ( x ) = \sum _ { y : y \leq x } f ( y ) \Leftrightarrow f ( x ) = \sum _ { y : y \leq x } g ( y ) \mu ( y , x )$ ; confidence 0.855

60. e12026032.png ; $p = e ^ { \theta } / ( 1 + e ^ { \theta } )$ ; confidence 0.855

61. t120050123.png ; $x \in \Sigma ^ { n } ( f )$ ; confidence 0.855

62. i13005057.png ; $L _ { 1 , 1}$ ; confidence 0.855

63. d11008068.png ; $e ( w ^ { H _ { i } } | v ^ { H _ { i } } ) = e ( w | v )$ ; confidence 0.855

64. o12002013.png ; $\omega ( \tau ) = \frac { \tau } { \operatorname { sinh } ( \pi \tau ) } \left| \frac { \Gamma ( c - a + \frac { i \tau } { 2 } ) } { \Gamma ( a + \frac { i \tau } { 2 } ) } \right| ^ { 2 } .$ ; confidence 0.855

65. c130160144.png ; $s ( n )$ ; confidence 0.855

66. f12024015.png ; $h _ { i } \geq 0$ ; confidence 0.855

67. e13003066.png ; $L ( \omega , r , s )$ ; confidence 0.855

68. c02583014.png ; $T _ { 1 } = T | _ { H _ { 1 } }$ ; confidence 0.855

69. b12016025.png ; $x _ { 1 } ^ { \prime }$ ; confidence 0.855

70. z13011051.png ; $\{ f _{( k , n )} \} _ { k = 1 } ^ { \mu _ { n } }$ ; confidence 0.854

71. a12024017.png ; $( Z , g )$ ; confidence 0.854

72. e12014043.png ; $\tilde{s}$ ; confidence 0.854

73. k05507069.png ; $\operatorname { Ric } _ { g } = k g$ ; confidence 0.854

74. c120080108.png ; $E , A _ { k } \in \mathbf{R} ^ { n \times m }$ ; confidence 0.854

75. b13006060.png ; $b _ {ii }$ ; confidence 0.854

76. w130080128.png ; $V _ { n } = ( 1 / 2 ) D _ { n } \theta ^ { 2 } \overline { \theta } ^ { 2 }$ ; confidence 0.854

77. p0754808.png ; $( p \supset r ) \supset ( ( q \supset r ) \supset ( ( p \vee q ) \supset r ) )$ ; confidence 0.854

78. c12008093.png ; $+ \left[ \begin{array} { l l } { A _ { 1 } } & { A _ { 2 } } \\ { A _ { 3 } } & { A _ { 4 } 4 } \end{array} \right] T _ { p - l , q - 1 } =$ ; confidence 0.854

79. e13007070.png ; $0 < \lambda _ { k } \leq | f ^ { ( k ) } ( x ) | \leq A \lambda _ { k }$ ; confidence 0.854

80. b12052079.png ; $B _ { n } ^ { - 1 }$ ; confidence 0.854

81. k0557807.png ; $= \frac { 2 } { \pi ^ { 2 } x _ { 0 } } \int _ { 0 } ^ { \infty } K _ { i \tau } ( x _ { 0 } ) \tau \operatorname { sinh } \pi \tau F ( \tau ) d \tau .$ ; confidence 0.854

82. f12016025.png ; $\lambda I - T$ ; confidence 0.854

83. s130620106.png ; $m _ { + } ( \lambda ) = \operatorname { lim } _ { \epsilon \rightarrow 0 + } m ( \lambda + i \epsilon ).$ ; confidence 0.853

84. a11028078.png ; $c ( G )$ ; confidence 0.853

85. l13010011.png ; $\alpha \in S ^ { 1 }$ ; confidence 0.853

86. s13045027.png ; $\rho _ { S } = \operatorname { corr } [ F _ { X } ( X ) , F _ { Y } ( Y ) ] =$ ; confidence 0.853

87. e120190131.png ; $a , b \in T$ ; confidence 0.853

88. j12001039.png ; $\operatorname { deg } F _ { 2 }$ ; confidence 0.853

89. s120150130.png ; $G \times_{ G _ { x }} S$ ; confidence 0.853

90. l12010074.png ; $\rho ( x ) = \sum _ { j \geq 1 } | f _ { j } ( x ) | ^ { 2 }.$ ; confidence 0.853

91. c02111012.png ; $\square \ldots \rightarrow H ^ { n } ( X , A ; G ) \rightarrow H ^ { n } ( X ; G ) \rightarrow H ^ { n } ( A ; G ) \rightarrow $ ; confidence 0.853

92. b12004010.png ; $x \in L ^ { 0 } ( \mu ) , y \in X , | x | \leq | y | \mu - a.e.$ ; confidence 0.853

93. m13025077.png ; $u \in \mathcal{D} ^ { \prime } ( \mathbf{R} ^ { n } )$ ; confidence 0.853

94. p11015041.png ; $\varphi ( P ) \subseteq Q$ ; confidence 0.853

95. o130010137.png ; $x _ { 3 } = f _ { m } ( x _ { 1 } , x _ { 2 } )$ ; confidence 0.853

96. o13001089.png ; $A ( \alpha ^ { \prime } , \alpha , k ) \approx - \frac { h | S | } { 4 \pi ( 1 + h | S | C ^ { - 1 } ) }$ ; confidence 0.853

97. s12004069.png ; $\chi _ { \mu } ^ { \lambda }$ ; confidence 0.853

98. b12015071.png ; $d : \{ 0,1 \} ^ { n } \rightarrow \mathbf{R}$ ; confidence 0.853

99. b12015016.png ; $\mathsf{P} _ { p }$ ; confidence 0.853

100. v09690037.png ; $T \in A$ ; confidence 0.853

101. b13004033.png ; $W _ { 0 } \supset W _ { 1 } \supset \ldots$ ; confidence 0.853

102. b12051020.png ; $- \nabla f ( x _ { c } )$ ; confidence 0.852

103. t1200607.png ; $Z_i > 0$ ; confidence 0.852

104. y120010130.png ; $R : X \rightarrow \operatorname { End } _ { k } ( V \otimes _ { k } V )$ ; confidence 0.852

105. z13008037.png ; $R _ { k + l } ^ { k - l } ( r ; \alpha ) =$ ; confidence 0.852

106. i130060150.png ; $x \geq \epsilon$ ; confidence 0.852

107. c13019068.png ; $h ( S )$ ; confidence 0.852

108. p13014010.png ; $\widehat { f } ( - \alpha , - p ) = \widehat { f } ( \alpha , p )$ ; confidence 0.852

109. n067520319.png ; $a ^ { * } ( x _ { i } )$ ; confidence 0.852

110. a13007058.png ; $x \operatorname { exp } ( - 8 ( \operatorname { log } x\operatorname { log } \operatorname { log } x ) ^ { 1 / 2 } ) < A _ { 2 } ( x ) <$ ; confidence 0.852

111. b12014036.png ; $r_{ - 1} ( z ) = a ( z )$ ; confidence 0.852

112. b12030044.png ; $\psi ( . ; \eta ) \text { is } ( \eta , Y) \square \text{periodic}.$ ; confidence 0.852

113. k055840134.png ; $y \in \mathcal{D} ( T ^ { + } )$ ; confidence 0.852

114. f13021029.png ; $\sigma ( \mathcal{L} _ { \mathbf{C} } ^ { \infty } ( G ) , \mathcal{L} _ { \mathbf{C} } ^ { 1 } ( G ) )$ ; confidence 0.852

115. m1201908.png ; $\times \operatorname { lim } _ { N \rightarrow \infty } \int _ { 1 / N } ^ { N } \tau \operatorname { tanh } \left( \frac { \pi \tau } { 2 } \right) P _ { ( i \tau - 1 ) / 2 } ( 2 x ^ { 2 } + 1 ) F ( \tau ) d \tau ,$ ; confidence 0.852

116. p13014029.png ; $f ( x ) - f _ { \rho } ( x ) \in C ( \mathbf{R} ^ { 2 } )$ ; confidence 0.852

117. m06222087.png ; $v = v ( u )$ ; confidence 0.852

118. a130240302.png ; $\widehat { \eta } \omega$ ; confidence 0.852

119. f120230126.png ; $+ \frac { ( - 1 ) ^ { k - 1 } } { ( k - 1 ) ! ( 1 - 1 ) ! 2 ! } \times \times \sum _ { \sigma } \operatorname { sign } \ \sigma \ \omega ( K ( [ X _ { \sigma 1 } , X _ { \sigma 2 } ] , X _ { \sigma 3 } , \ldots ) , X _ { \sigma ( k + 2 ) } , \ldots ).$ ; confidence 0.852

120. a01225028.png ; $m \geq 0$ ; confidence 0.852

121. p1301005.png ; $\| P \| _ { K } = \operatorname { max } _ { z \in K } | P ( z ) |$ ; confidence 0.852

122. e120070110.png ; $f \in C ^ { 0 } ( \Gamma , k + 2 , \mathbf{v} )$ ; confidence 0.852

123. c02236050.png ; $N _ { k }$ ; confidence 0.852

124. i12004024.png ; $[ d \overline { \zeta _ { j } } ]$ ; confidence 0.851

125. b1205007.png ; $\mathcal{ Z}_ { 0 }$ ; confidence 0.851

126. t13005022.png ; $E _ { i } ^ { * } \xi = \xi ^ { \prime }$ ; confidence 0.851

127. b13001085.png ; $z \mapsto ( a z + d ) ( c z + d ) ^ { - 1 }$ ; confidence 0.851

128. b12052082.png ; $\{ w _ { j } , v _ { j } \} _ { j = 0 } ^ { n - 1 }$ ; confidence 0.851

129. b12030064.png ; $\{ \psi _ { m } ( . ; \eta ) \} _ { m = 1 } ^ { \infty } $ ; confidence 0.851

130. q12007039.png ; $g E g ^ { - 1 } = q ^ { 2 } E , g F g ^ { - 1 } = q ^ { - 2 } F , [ E , F ] = \frac { g - g ^ { - 1 } } { q - q ^ { - 1 } }$ ; confidence 0.851

131. c12007064.png ; $Z \mathcal{C} \rightarrow \operatorname{Ab}$ ; confidence 0.851

132. c023150176.png ; $\phi ^ { \prime }$ ; confidence 0.851

133. b12004085.png ; $\int _ { 0 } ^ { t } f ^ { * } ( s ) d s \leq \int _ { 0 } ^ { t } g ^ { * } ( s ) d s$ ; confidence 0.851

134. l120120133.png ; $( K _ { p } ) _ { \text{ins} }$ ; confidence 0.851

135. d13003010.png ; $\psi _ { N }$ ; confidence 0.851

136. a11058043.png ; $\sigma _ { 1 }$ ; confidence 0.851

137. a13023033.png ; $c < 1$ ; confidence 0.851

138. e12002018.png ; $X \vee X$ ; confidence 0.851

139. b130290226.png ; $v ( A ) = e _ { \mathfrak{m} } ^ { 0 } ( A ) + \operatorname { dim } A + I ( A ) - 1$ ; confidence 0.851

140. n12012047.png ; $H C \in \mathcal{NP}$ ; confidence 0.851

141. b12040035.png ; $( g , \mathbf{f} )$ ; confidence 0.851

142. k055840252.png ; $x , y \in \mathcal{D} ( A )$ ; confidence 0.851

143. m12015058.png ; $\times \operatorname { etr } \left\{ - \frac { 1 } { 2 } \Sigma ^ { - 1 } ( X - M ) \Psi ^ { - 1 } ( X - M ) ^ { \prime } \right\} , X \in \mathbf{R} ^ { p \times n } , M \in \mathbf{R} ^ { p \times n } , \Sigma > 0 , \Psi > 0.$ ; confidence 0.851

144. n12002092.png ; $V _ { F } ^ { \prime } ( m ) ( V ( m ) ( \alpha ) ) ( \beta ) = V _ { F } ^ { \prime } ( m ) ( V ( m ) ( \beta ) ) ( \alpha ).$ ; confidence 0.851

145. b1200108.png ; $B _ { i } \left( x _ { 1 } , x _ { 2 } , u , \frac { \partial u } { \partial x _ { 1 } } , \frac { \partial u } { \partial x _ { 2 } } : x _ { 1 } ^ { \prime } , x _ { 2 } ^ { \prime } , u ^ { \prime } , \frac { \partial u ^ { \prime } } { \partial x _ { 1 } ^ { \prime } } , \frac { \partial u ^ { \prime } } { \partial x _ { 2 } ^ { \prime } } \right) = 0,$ ; confidence 0.851

146. l12003033.png ; $\pi _0 \operatorname { Map } ( X , Y )$ ; confidence 0.850

147. c1301609.png ; $w \notin S$ ; confidence 0.850

148. t120050112.png ; $\Sigma ^ { 1,1,1,1 }$ ; confidence 0.850

149. b13016050.png ; $\tau \circ \tau$ ; confidence 0.850

150. b13019078.png ; $\beta > 89 / 570 = 0.1561 \ldots$ ; confidence 0.850

151. b130290215.png ; $X = \operatorname { Proj } R$ ; confidence 0.850

152. t1201305.png ; $\frac { \partial M } { \partial x _ { n } } = \Lambda ^ { n } M ,$ ; confidence 0.850

153. a130040143.png ; $\text{S}5$ ; confidence 0.850

154. f12009014.png ; $f \in \mathcal{H} ( \mathbf{C} ^ { n } )$ ; confidence 0.850

155. m11011040.png ; $\mathcal{L} y = 0,$ ; confidence 0.850

156. c13025017.png ; $Y _ { j } = i$ ; confidence 0.850

157. p12017039.png ; $X \in \operatorname { ker } \delta _ { A , B }$ ; confidence 0.850

158. l12006096.png ; $| ( \phi , e ^ { - i H t } \phi ) | ^ { 2 }$ ; confidence 0.850

159. a130040433.png ; $h : \mathbf{A} \twoheadrightarrow \mathbf B$ ; confidence 0.850

160. s1203506.png ; $\left\{ \begin{array} { l } { d x ( t ) = A x ( t ) d t + B u ( t ) d t + d w ( t ), } \\ { d y ( t ) = C x ( t ) d t + D u ( t ) d t + d v ( t ), } \end{array} \right.$ ; confidence 0.850

161. c12007027.png ; $H ^ { n } ( \mathcal{C} , M )$ ; confidence 0.850

162. e12010016.png ; $+ \frac { 1 } { c } \left( \frac { \partial } { \partial t } ( \mathbf P \times \mathbf B ) + \nabla . ( \mathbf v \bigotimes ( \mathbf P \times \mathbf B ) ) \right),$ ; confidence 0.850

163. a13032010.png ; $X _ { 1 } + \ldots + X _ { n } > 0$ ; confidence 0.850

164. w13008055.png ; $\psi \psi ^ { * } d \widetilde { \Omega }$ ; confidence 0.850

165. a1202807.png ; $\{ U _ { z } \} _ { z \in \mathbf T }$ ; confidence 0.850

166. k12007018.png ; $\int _ { 0 } ^ { \pi } d s \int _ { s } ^ { \pi } f ( t - s ) \operatorname { det } C _ { s } ( t ) d t \geq$ ; confidence 0.850

167. m1200408.png ; $\overset{\rightharpoonup }{ H }$ ; confidence 0.850

168. f120150107.png ; $K ( x ) \in C ^ { 1 } ( \Omega , Y )$ ; confidence 0.850

169. d120280149.png ; $\overline { u } ( z ) = \int _ { \partial D _ { m } } w ( \zeta ) \frac { \sum _ { k = 1 } ^ { n } ( - 1 ) ^ { k - 1 } ( \overline { \zeta } _ { k } - \overline{z} _ { k } ) d \overline { \zeta } [ k ] \wedge d \zeta } { | \zeta - z | ^ { 2 n } },$ ; confidence 0.850

170. a13008066.png ; $X \leftarrow m + T s E$ ; confidence 0.850

171. c12003014.png ; $h _ { K } ( t ) = \operatorname { sup } \{ \| f ( t , x ) \| : x \in K \}$ ; confidence 0.850

172. s12015045.png ; $G = \operatorname{SL} _ { 2 } ( \mathbf C )$ ; confidence 0.850

173. v0969008.png ; $A \subset \mathcal{B} ( H )$ ; confidence 0.850

174. b130290118.png ; $\text{q}$ ; confidence 0.849

175. s12032088.png ; $t : M \rightarrow N$ ; confidence 0.849

176. b12051057.png ; $H _ { + }$ ; confidence 0.849

177. j120020158.png ; $U _ { t } = u ( B _ { \operatorname { min } ( t , \tau )} )$ ; confidence 0.849

178. i13001038.png ; $C ^ { * } = \overline { C ^ { T } }$ ; confidence 0.849

179. g120040140.png ; $f \in G _ { 0 } ^ { s } ( \Omega )$ ; confidence 0.849

180. e03500040.png ; $\epsilon ^ { N } ( C )$ ; confidence 0.849

181. w13006032.png ; $\frac { 1 } { 2 \pi ^ { 2 } } \omega_{ \text{WP}},$ ; confidence 0.849

182. c02583013.png ; $T _ { 0 } = T | _ { H _ { 0 } }$ ; confidence 0.849

183. s13040049.png ; $H ^ { j } ( X \times _ { G } E G , \mathbf{Z} / p ) \rightarrow H ^ { j } ( X ^ { G } \times B G , \mathbf Z / p )$ ; confidence 0.849

184. e13007074.png ; $\ll A ^ { 2 / K } N \lambda _ { k } ^ { 1 / ( 2 K - 2 ) } + M ^ { 1 - 2 / K } \lambda _ { k } ^ { - 1 / ( 2 K - 2 ) },$ ; confidence 0.849

185. b1205509.png ; $b _ { \gamma } : M \rightarrow \mathbf R$ ; confidence 0.849

186. s13059052.png ; $R = \{ z : | \operatorname { arg } z | < \pi \}$ ; confidence 0.849

187. l05700045.png ; $( \lambda x M ) N = M [ x : = N ]$ ; confidence 0.849

188. b1203005.png ; $p \in \mathbf{Z} ^ { N }$ ; confidence 0.849

189. s13049023.png ; $d ( P ) = \operatorname { max } _ { k } | N _ { k } |$ ; confidence 0.849

190. a13026017.png ; $\zeta ( 2 n + 1 ) \notin \mathbf{Q}$ ; confidence 0.849

191. r08232026.png ; $\{ x \in \mathbf{R} ^ { n } : 0 \leq r \leq | x - x _ { 0 } | \leq R \}$ ; confidence 0.848

192. a12018044.png ; $a < 1 < b$ ; confidence 0.848

193. a13006075.png ; $\operatorname { lim } _ { n \rightarrow \infty } \frac { P ^ { \# } ( n ) } { G ^ { \# } ( n ) } = 1.$ ; confidence 0.848

194. p13014052.png ; $D ( x _ { 0 } ) : = \operatorname { lim } _ { t \rightarrow + 0 } [ f ( x _ { 0 } + t n _ { 0 } ) - f ( x - t n _ { 0 } ) ]$ ; confidence 0.848

195. s13051069.png ; $( u _ { i } , v _ { i } ) \in E_i$ ; confidence 0.848

196. s120230155.png ; $A _ { i } A _ { j } = \delta _ { i j } A$ ; confidence 0.848

197. l11002037.png ; $\varphi , \psi \in \operatorname { Aut } ( X )$ ; confidence 0.848

198. a13022055.png ; $E _ { C }$ ; confidence 0.848

199. d0302802.png ; $\sum _ { k = 0 } ^ { \infty } a _ { k }$ ; confidence 0.848

200. o12006070.png ; $\eta ( x , y ) = | y - x | ^ { 2 - n } d x d y,$ ; confidence 0.848

201. b11052012.png ; $d = 1$ ; confidence 0.848

202. i130060116.png ; $\{ f ( k ) , s _j 1 \leq j \leq J \}$ ; confidence 0.848

203. b12004054.png ; $p _ { X } = \operatorname { lim } _ { s \rightarrow \infty } \frac { \operatorname { log } s } { \operatorname { log } \| D _ { s } \| _ { X } },$ ; confidence 0.848

204. d12003020.png ; $b \mathcal{A} _ { p } \subset b \Delta .$ ; confidence 0.848

205. n06663051.png ; $r _ { i } ^ { * }$ ; confidence 0.848

206. o0681706.png ; $\mathsf{E} e ^ { i t \omega ^ { 2 } } = \prod _ { k = 1 } ^ { \infty } \left( 1 - \frac { 2 i t } { \pi ^ { 2 } k ^ { 2 } } \right) ^ { - 1 / 2 }.$ ; confidence 0.848

207. d11022025.png ; $y ^ { ( n ) } = 0$ ; confidence 0.848

208. b13021011.png ; $F _ { r } \geq 0$ ; confidence 0.848

209. b13019016.png ; $\mathbf{x} ( h ) = ( h ^ { 2 } , h , h ^ { 3 / 2 } , h ^ { 1 / 2 } , h ^ { - 1 / 2 } )$ ; confidence 0.848

210. e120140104.png ; $\varphi , \psi , \ldots$ ; confidence 0.848

211. c120080113.png ; $p , q \in \mathbf{Z} _ { + }$ ; confidence 0.848

212. g13003052.png ; $\square ^ { * } \mathcal{C} ^ { \infty } ( \Omega ) = \mathcal{B} / \mathcal{I}_{ \mathcal{U}}$ ; confidence 0.848

213. b120210120.png ; $w _ { 1 } \leftarrow w _ { 2 }$ ; confidence 0.848

214. t1200206.png ; $( F ^ { \mathbf{Z} } , B ^ {\mathbf{Z} } )$ ; confidence 0.848

215. s12018042.png ; $\langle x , y \rangle = 0$ ; confidence 0.848

216. k055840312.png ; $\mathcal{K} \oplus \mathcal{K} _ { 2 }$ ; confidence 0.848

217. c12008021.png ; $A = \left[ \begin{array} { l } { A _ { 1 } } \\ { A _ { 2 } } \end{array} \right] , \quad A _ { 1 } \in C ^ { n \times n } , A _ { 2 } \in C ^ { ( m - n ) \times n }.$ ; confidence 0.847

218. e1202103.png ; $x ^ { m - 1 } p _ { m } \left( \frac { 1 } { x } \right) = p _ { m } ( x ).$ ; confidence 0.847

219. b13020016.png ; $[ h _ { i } f _ { j } ] = - a _ { ij } f _ { j }$ ; confidence 0.847

220. t130140117.png ; $\chi _ { R } : K _ { 0 } ( \operatorname { mod } R ) \rightarrow \mathbf Z$ ; confidence 0.847

221. d0302701.png ; $V _ { n , p } ( f , x ) = \frac { 1 } { p + 1 } \sum _ { k = n - p } ^ { n } S _ { k } ( f , x ),$ ; confidence 0.847

222. l057000204.png ; $[ [ M ] ] _ { \rho ( x : = d ) }$ ; confidence 0.847

223. b11066037.png ; $0 \leq \operatorname { Re } s \leq 1$ ; confidence 0.847

224. b12015082.png ; $D _ { s } \oplus D _ { s } ^ { \perp }$ ; confidence 0.847

225. f12001032.png ; $u v \simeq f$ ; confidence 0.847

226. w12020028.png ; $b _ { \nu } = 0$ ; confidence 0.847

227. d120230113.png ; $v _ { i } = ( 1 - k _ { i } )$ ; confidence 0.847

228. w120070121.png ; $\left( I \frac { \partial } { \partial t } + \sum A _ { j } \frac { \partial } { \partial x _ { j } } \right) E = I \delta$ ; confidence 0.847

229. w13011023.png ; $( Y , \mathcal{B} , \nu , S )$ ; confidence 0.847

230. d13008069.png ; $\mathcal{H} = \mathbf{C} ^ { n }$ ; confidence 0.847

231. a01180076.png ; $T ( n )$ ; confidence 0.847

232. l110020157.png ; $b = e$ ; confidence 0.847

233. w1201108.png ; $D _ { x } = \frac { 1 } { 2 i \pi } \frac { \partial } { \partial x },$ ; confidence 0.847

234. a130040737.png ; $\mathsf{Me} \operatorname{Mod} \mathcal{S}= \cup \{ \mathsf{Me} \operatorname{Mod} \mathcal{S}_p \ : \ P \ \text{a set} \}$ ; confidence 0.847

235. p120170106.png ; $x \in B ( H )$ ; confidence 0.847

236. b130040107.png ; $\| f \| _ { \infty } : = \operatorname { sup } \{ | f ( x ) | : x \in X \}$ ; confidence 0.847

237. f12002051.png ; $B ( X ) \bigcap A ( ( X ) ) = A ( X );$ ; confidence 0.847

238. l120170171.png ; $M ^ { 3 }$ ; confidence 0.847

239. a13006041.png ; $\partial ( a ) = \operatorname { deg } ( a )$ ; confidence 0.846

240. s13051053.png ; $\mathcal{P} = \cup _ { n \in \mathcal{O} } P _ { n }$ ; confidence 0.846

241. l13010056.png ; $B f = R ^ { * } ( a _ { \text{e} } \otimes \widehat { f } ) : = A \widehat { f }$ ; confidence 0.846

242. k05584013.png ; $( \mathcal{K} _ { + } , [ . , . ] )$ ; confidence 0.846

243. t120140158.png ; $T _ { \Phi }$ ; confidence 0.846

244. l13010072.png ; $\leq \delta$ ; confidence 0.846

245. o13006041.png ; $\Phi : \mathcal{H} \rightarrow \mathcal{E}$ ; confidence 0.846

246. c130070172.png ; $\mathfrak { C } ( P ) = I _ { 0 } \subset \ldots \subset I _ { \delta } = R ( P )$ ; confidence 0.846

247. d12016069.png ; $\| f \| \neq \operatorname { dist } ( f , L _ { 1 } ( S ) + L _ { 1 } ( T ) )$ ; confidence 0.846

248. j130040121.png ; $P _ { K } ( v , z ) \operatorname { mod } ( ( ( v ^ { 2 } - 1 ) , z ) ^ { k + 1 } )$ ; confidence 0.846

249. a130040468.png ; $\operatorname{CPC}_{\wedge \vee}$ ; confidence 0.846

250. l120170155.png ; $K ^ { 2 } \times I ^ { n } \searrow \operatorname{pt}$ ; confidence 0.846

251. f12023090.png ; $D | _ { \Omega ^ { 0 } ( M ) } = 0$ ; confidence 0.846

252. e12012094.png ; $d _ { i } ^ { ( t ) } = ( y _ { i } - \mu ^ { ( t ) } ) ^ { T } [ \Sigma ^ { ( t ) } ] ^ { - 1 } ( y _ { i } - \mu ^ { ( t ) } )$ ; confidence 0.846

253. e12024058.png ; $A = E [ p ^ { m } ]$ ; confidence 0.846

254. j12002081.png ; $Y \in \mathcal{BMO}$ ; confidence 0.846

255. c13021024.png ; $w _ { L _ { + } } = w _ { L - } | w _ { L _ { 0 } },$ ; confidence 0.846

256. s1202409.png ; $( X _ { i } , x _ { i 0 } ) = X_i$ ; confidence 0.846

257. a130130103.png ; $K P$ ; confidence 0.846

258. e12007012.png ; $\Gamma _ { q }$ ; confidence 0.846

259. f120080162.png ; $L _ { q } ( X )$ ; confidence 0.846

260. p11015035.png ; $x \preceq y \Rightarrow \varphi ( x ) \preceq \varphi ( y ).$ ; confidence 0.846

261. m13014065.png ; $u \in C ( \mathbf{R} ^ { n } )$ ; confidence 0.846

262. s13062080.png ; $\mu _ { \text{s} } = \mu _ { \text{sc} } + \mu _ { \text{d} }.$ ; confidence 0.846

263. p120170107.png ; $( \mathcal{A} + i \mathcal{B} ) x = 0$ ; confidence 0.846

264. a12023021.png ; $a _ { k } = \int _ { \Gamma } \frac { f ( \zeta ) d \zeta } { \zeta ^ { k + 1 } } , \quad k = 0,1, \dots .$ ; confidence 0.846

265. b13002013.png ; $\operatorname { sp } ( J , x ) = \operatorname { sp } ( J ^ { \prime } , x )$ ; confidence 0.846

266. n067520392.png ; $\dot { x } _ { j } = 0$ ; confidence 0.846

267. e12015033.png ; $\frac { \mathcal{D} ^ { 2 } \xi ^ { i } } { d t ^ { 2 } } = \mathcal{P} _ { r } ^ { i } \xi ^ { r },$ ; confidence 0.846

268. e13003034.png ; $\mathcal{C} _ { 0 } ( \Gamma \backslash G ( \mathbf{R} ) )$ ; confidence 0.846

269. w13012029.png ; $T _ { \text{W}d } = T _ { \delta }$ ; confidence 0.846

270. c120010161.png ; $E \ni 0$ ; confidence 0.845

271. o13008038.png ; $h \in L ^ { 1 } ( \mathbf{R} _ { + } )$ ; confidence 0.845

272. b12037026.png ; $g _ { k } = f$ ; confidence 0.845

273. d12014086.png ; $\operatorname{GR} ( p ^ { r } , s )$ ; confidence 0.845

274. t12005029.png ; $\Sigma ^ { i , j , k } ( f ) \subset \Sigma ^ { i , j } ( f )$ ; confidence 0.845

275. t12005025.png ; $T ( \Sigma ^ { i } ( f ) ) _ { x }$ ; confidence 0.845

276. a120160130.png ; $W E = R.F.I.$ ; confidence 0.845

277. d03025011.png ; $l _ { k } \geq | p _ { k } ( x )|$ ; confidence 0.845

278. s1202504.png ; $h \geq 0$ ; confidence 0.845

279. c12028049.png ; $\rho ( X_{ *} )$ ; confidence 0.845

280. s13049057.png ; $\widetilde { \nabla } ^ { j - i }$ ; confidence 0.845

281. b120040118.png ; $X _ { s } ^ { * }$ ; confidence 0.845

282. i13005045.png ; $\dot { a } : = d a / d k $ ; confidence 0.845

283. a01206017.png ; $I_2$ ; confidence 0.844

284. c02280011.png ; $C_n$ ; confidence 0.844

285. e12009013.png ; $S ^ { \sigma }$ ; confidence 0.844

286. i130090232.png ; $\operatorname { char } ( Y ^ { \chi } ) = \pi ^ { \mu _{\chi}} g _ { \chi } ( T ).$ ; confidence 0.844

287. i13006090.png ; $H ( t ) : = - \frac { 1 } { 2 \pi } \int _ { - \infty } ^ { \infty } \left( | f ( k ) | ^ { - 2 } - 1 \right) e ^ { - i k t } d k.$ ; confidence 0.844

288. s12005079.png ; $S ( z ) c = H c + z G ( 1 - z T ) ^ { - 1 } F c , c \in \mathbf{C}.$ ; confidence 0.844

289. j12002033.png ; $\varphi_2$ ; confidence 0.844

290. s13044026.png ; $H _ { k } ( X )$ ; confidence 0.844

291. e03500033.png ; $C _ { i } \subset C$ ; confidence 0.844

292. p13014025.png ; $\widehat { f } _ { p } : = \partial \widehat { f } / \partial p$ ; confidence 0.844

293. b0153305.png ; $a , b$ ; confidence 0.844

294. j13002055.png ; $2 ^ { n } \operatorname { exp } \left\{ - \left( \begin{array} { c } { n / 100 } \\ { 3 } \end{array} \right) p ^ { 3 } + O ( n ^ { 4 } p ^ { 5 } ) \right\} = o ( 1 ).$ ; confidence 0.844

295. m11018028.png ; $\Lambda ^ { + }$ ; confidence 0.844

296. s13004030.png ; $X _ { g } = \operatorname { Sp } ( 2 g , \mathbf{Z} ) \backslash H _ { g }$ ; confidence 0.844

297. c120210123.png ; $\mathcal{L} [ \Delta _ { n } ( \theta ) | P _ { n , \theta _ { n } } ] \Rightarrow N ( \Gamma ( \theta ) h , \Gamma ( \theta ) ).$ ; confidence 0.844

298. o13001076.png ; $k a \ll 1$ ; confidence 0.844

299. j13001038.png ; $| f | _ { - }$ ; confidence 0.843

300. l12009089.png ; $\wedge ( \mathfrak { g } ^ { * } )$ ; confidence 0.843

How to Cite This Entry:
Maximilian Janisch/latexlist/latex/NoNroff/37. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Maximilian_Janisch/latexlist/latex/NoNroff/37&oldid=45877