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16. https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i12008020.png ; $( A B )$ ; confidence 0.999
 
16. https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i12008020.png ; $( A B )$ ; confidence 0.999
  
17. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120050/b12005034.png ; $\{ f \in H ^ { \infty } ( B _ { E } ) : f \text{continuous and bounded on}\overline{B_E}\};$ ; confidence 0.999
+
17. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120050/b12005034.png ; $\{ f \in \mathcal{H} ^ { \infty } ( B _ { E } ) : f \, \text{continuous and bounded on}\,\overline{B_E}\};$ ; confidence 0.999
  
18. https://www.encyclopediaofmath.org/legacyimages/a/a013/a013380/a0133806.png ; $\lambda \in R$ ; confidence 0.999
+
18. https://www.encyclopediaofmath.org/legacyimages/a/a013/a013380/a0133806.png ; $\lambda \in \mathbf{R}$ ; confidence 0.999
  
 
19. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120070/e120070108.png ; $\beta ( f )$ ; confidence 0.999
 
19. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120070/e120070108.png ; $\beta ( f )$ ; confidence 0.999
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21. https://www.encyclopediaofmath.org/legacyimages/f/f130/f130160/f13016031.png ; $\Gamma ( \xi \oplus \eta )$ ; confidence 0.999
 
21. https://www.encyclopediaofmath.org/legacyimages/f/f130/f130160/f13016031.png ; $\Gamma ( \xi \oplus \eta )$ ; confidence 0.999
  
22. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130050/t130050164.png ; $\lambda \in B _ { 4 }$ ; confidence 0.999
+
22. https://www.encyclopediaofmath.org/legacyimages/t/t130/t130050/t130050164.png ; $\lambda \in \mathbf{B} _ { 4 }$ ; confidence 0.999
  
 
23. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120110/f12011092.png ; $U \backslash \Omega$ ; confidence 0.999
 
23. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120110/f12011092.png ; $U \backslash \Omega$ ; confidence 0.999
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39. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120030/l12003091.png ; $\tau ( R ^ { * } )$ ; confidence 0.999
 
39. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120030/l12003091.png ; $\tau ( R ^ { * } )$ ; confidence 0.999
  
40. https://www.encyclopediaofmath.org/legacyimages/k/k130/k130010/k13001036.png ; $\text{Tait}( \vec { D } )$ ; confidence 0.999
+
40. https://www.encyclopediaofmath.org/legacyimages/k/k130/k130010/k13001036.png ; $\operatorname{Tait}( \vec { D } )$ ; confidence 0.999
  
 
41. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130070/c13007012.png ; $Y ^ { 2 } = X ^ { 3 }$ ; confidence 0.999
 
41. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130070/c13007012.png ; $Y ^ { 2 } = X ^ { 3 }$ ; confidence 0.999
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50. https://www.encyclopediaofmath.org/legacyimages/h/h046/h046010/h04601058.png ; $\tau ( W , M _ { 0 } ) = 0$ ; confidence 0.999
 
50. https://www.encyclopediaofmath.org/legacyimages/h/h046/h046010/h04601058.png ; $\tau ( W , M _ { 0 } ) = 0$ ; confidence 0.999
  
51. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130070/i13007042.png ; $\xi \in R ^ { 3 }$ ; confidence 0.999
+
51. https://www.encyclopediaofmath.org/legacyimages/i/i130/i130070/i13007042.png ; $\xi \in \mathbf{R} ^ { 3 }$ ; confidence 0.999
  
 
52. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120320/b12032099.png ; $F ( m ^ { 1 / p } , n ^ { 1 / p } ) = ( n + m ) ^ { 1 / p }$ ; confidence 0.999
 
52. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120320/b12032099.png ; $F ( m ^ { 1 / p } , n ^ { 1 / p } ) = ( n + m ) ^ { 1 / p }$ ; confidence 0.999
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59. https://www.encyclopediaofmath.org/legacyimages/v/v096/v096040/v09604020.png ; $s ( r ) \equiv r$ ; confidence 0.999
 
59. https://www.encyclopediaofmath.org/legacyimages/v/v096/v096040/v09604020.png ; $s ( r ) \equiv r$ ; confidence 0.999
  
60. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130040/c1300408.png ; $\beta ( z ) : = \frac { 1 } { 2 } [ \psi ( \frac { 1 } { 2 } z + \frac { 1 } { 2 } ) - \psi ( \frac { 1 } { 2 } z ) ] =$ ; confidence 0.999
+
60. https://www.encyclopediaofmath.org/legacyimages/c/c130/c130040/c1300408.png ; $\beta ( z ) : = \frac { 1 } { 2 } \left[ \psi \left( \frac { 1 } { 2 } z + \frac { 1 } { 2 } \right) - \psi \left( \frac { 1 } { 2 } z \right) \right] =$ ; confidence 0.999
  
 
61. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120280/s12028026.png ; $D ^ { 2 } X \approx X.$ ; confidence 0.999
 
61. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120280/s12028026.png ; $D ^ { 2 } X \approx X.$ ; confidence 0.999
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71. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130010/d1300101.png ; $h ( x , y )$ ; confidence 0.999
 
71. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130010/d1300101.png ; $h ( x , y )$ ; confidence 0.999
  
72. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130130/a13013029.png ; $\phi _ { + } = \operatorname { exp } ( \sum _ { j = 1 } ^ { \infty } \phi _ { j } ( x , t ) z ^ { j } ),$ ; confidence 0.999
+
72. https://www.encyclopediaofmath.org/legacyimages/a/a130/a130130/a13013029.png ; $\phi _ { + } = \operatorname { exp } \left( \sum _ { j = 1 } ^ { \infty } \phi _ { j } ( x , t ) z ^ { j } \right),$ ; confidence 0.999
  
 
73. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120190/e120190160.png ; $W ^ { + } ( h _ { 1 } , h _ { 2 } , p )$ ; confidence 0.999
 
73. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120190/e120190160.png ; $W ^ { + } ( h _ { 1 } , h _ { 2 } , p )$ ; confidence 0.999
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95. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130130/d13013054.png ; $A ^ { \pm } = \frac { n } { 2 } ( \pm 1 - \operatorname { cos } \theta ) d \phi ,$ ; confidence 0.999
 
95. https://www.encyclopediaofmath.org/legacyimages/d/d130/d130130/d13013054.png ; $A ^ { \pm } = \frac { n } { 2 } ( \pm 1 - \operatorname { cos } \theta ) d \phi ,$ ; confidence 0.999
  
96. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120200/b12020015.png ; $\theta H ^ { 2 } = \{ \theta ( z ) f ( z ) : f \in H ^ { 2 } \},$ ; confidence 0.999
+
96. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120200/b12020015.png ; $\theta H ^ { 2 } = \left\{ \theta ( z ) f ( z ) : f \in H ^ { 2 } \right\},$ ; confidence 0.999
  
 
97. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120260/s12026042.png ; $\phi : [ 0,1 ] \rightarrow ( L ^ { 2 } )$ ; confidence 0.999
 
97. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120260/s12026042.png ; $\phi : [ 0,1 ] \rightarrow ( L ^ { 2 } )$ ; confidence 0.999
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133. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120050/a12005050.png ; $U ( t , s )$ ; confidence 0.999
 
133. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120050/a12005050.png ; $U ( t , s )$ ; confidence 0.999
  
134. https://www.encyclopediaofmath.org/legacyimages/w/w120/w120070/w12007028.png ; $= ( p + p ^ { \prime } , q + q ^ { \prime } , t + t ^ { \prime } + \frac { 1 } { 2 } ( p q ^ { \prime } - q p ^ { \prime } ) ).$ ; confidence 0.999
+
134. https://www.encyclopediaofmath.org/legacyimages/w/w120/w120070/w12007028.png ; $= \left( p + p ^ { \prime } , q + q ^ { \prime } , t + t ^ { \prime } + \frac { 1 } { 2 } ( p q ^ { \prime } - q p ^ { \prime } ) \right).$ ; confidence 0.999
  
 
135. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130250/b13025065.png ; $\frac { 1 } { \operatorname { sin } ^ { 2 } \omega } = \frac { 1 } { \operatorname { sin } ^ { 2 } \alpha } + \frac { 1 } { \operatorname { sin } ^ { 2 } \beta } + \frac { 1 } { \operatorname { sin } ^ { 2 } \gamma }.$ ; confidence 0.999
 
135. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130250/b13025065.png ; $\frac { 1 } { \operatorname { sin } ^ { 2 } \omega } = \frac { 1 } { \operatorname { sin } ^ { 2 } \alpha } + \frac { 1 } { \operatorname { sin } ^ { 2 } \beta } + \frac { 1 } { \operatorname { sin } ^ { 2 } \gamma }.$ ; confidence 0.999
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137. https://www.encyclopediaofmath.org/legacyimages/r/r130/r130130/r1301307.png ; $\sigma \subset \sigma ( A )$ ; confidence 0.999
 
137. https://www.encyclopediaofmath.org/legacyimages/r/r130/r130130/r1301307.png ; $\sigma \subset \sigma ( A )$ ; confidence 0.999
  
138. https://www.encyclopediaofmath.org/legacyimages/d/d032/d032780/d03278014.png ; $G \subset R ^ { 2 }$ ; confidence 0.999
+
138. https://www.encyclopediaofmath.org/legacyimages/d/d032/d032780/d03278014.png ; $G \subset \mathbf{R} ^ { 2 }$ ; confidence 0.999
  
 
139. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120050/a120050125.png ; $A ( t , u )$ ; confidence 0.999
 
139. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120050/a120050125.png ; $A ( t , u )$ ; confidence 0.999
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149. https://www.encyclopediaofmath.org/legacyimages/t/t093/t093560/t09356039.png ; $s ( x , y ) = \phi ( y ^ { * } x )$ ; confidence 0.999
 
149. https://www.encyclopediaofmath.org/legacyimages/t/t093/t093560/t09356039.png ; $s ( x , y ) = \phi ( y ^ { * } x )$ ; confidence 0.999
  
150. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120200/t120200206.png ; $max_{r \in I} \text{Re}G_2 (r ) \geq M$ ; confidence 0.999
+
150. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120200/t120200206.png ; $\max_{r \in I} \text{Re} \, G_2 (r ) \geq M$ ; confidence 0.999
  
 
151. https://www.encyclopediaofmath.org/legacyimages/n/n067/n067520/n06752072.png ; $K = F [ \lambda ]$ ; confidence 0.999
 
151. https://www.encyclopediaofmath.org/legacyimages/n/n067/n067520/n06752072.png ; $K = F [ \lambda ]$ ; confidence 0.999
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172. https://www.encyclopediaofmath.org/legacyimages/a/a011/a011910/a01191025.png ; $A \cap B$ ; confidence 0.999
 
172. https://www.encyclopediaofmath.org/legacyimages/a/a011/a011910/a01191025.png ; $A \cap B$ ; confidence 0.999
  
173. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120070/e120070133.png ; $\text{dim} H ^ { 1 }$ ; confidence 0.999
+
173. https://www.encyclopediaofmath.org/legacyimages/e/e120/e120070/e120070133.png ; $\operatorname{dim} \, H ^ { 1 }$ ; confidence 0.999
  
 
174. https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i12008023.png ; $F ( T , H )$ ; confidence 0.999
 
174. https://www.encyclopediaofmath.org/legacyimages/i/i120/i120080/i12008023.png ; $F ( T , H )$ ; confidence 0.999
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201. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120100/l12010097.png ; $H = - \Delta + V ( x )$ ; confidence 0.999
 
201. https://www.encyclopediaofmath.org/legacyimages/l/l120/l120100/l12010097.png ; $H = - \Delta + V ( x )$ ; confidence 0.999
  
202. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120010/t12001070.png ; $\tau = ( \tau _ { 1 } , \tau _ { 2 } , \tau _ { 3 } ) \in R ^ { 3 }$ ; confidence 0.999
+
202. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120010/t12001070.png ; $\tau = ( \tau _ { 1 } , \tau _ { 2 } , \tau _ { 3 } ) \in \mathbf{R} ^ { 3 }$ ; confidence 0.999
  
203. https://www.encyclopediaofmath.org/legacyimages/y/y120/y120010/y120010121.png ; $R = R _ { V }$ ; confidence 0.999
+
203. https://www.encyclopediaofmath.org/legacyimages/y/y120/y120010/y120010121.png ; $R = \mathcal{R} _ { \mathcal{V} }$ ; confidence 0.999
  
 
204. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120220/b12022059.png ; $f ^ { 0 } ( x , \xi ) = M ( u ^ { 0 } ( x ) , \xi )$ ; confidence 0.999
 
204. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120220/b12022059.png ; $f ^ { 0 } ( x , \xi ) = M ( u ^ { 0 } ( x ) , \xi )$ ; confidence 0.999
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208. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120160/a120160109.png ; $1,160$ ; confidence 0.999
 
208. https://www.encyclopediaofmath.org/legacyimages/a/a120/a120160/a120160109.png ; $1,160$ ; confidence 0.999
  
209. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130010/z13001058.png ; $x ( n ) = ( \frac { 3 } { 4 } n ^ { 2 } - \frac { 11 } { 4 } n - 4 ) ( - 2 ) ^ { n } + 4 ( - 3 ) ^ { n }.$ ; confidence 0.999
+
209. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130010/z13001058.png ; $x ( n ) = \left( \frac { 3 } { 4 } n ^ { 2 } - \frac { 11 } { 4 } n - 4 \right) ( - 2 ) ^ { n } + 4 ( - 3 ) ^ { n }.$ ; confidence 0.999
  
 
210. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120150/t12015040.png ; $\pi ^ { \prime } ( \eta )$ ; confidence 0.999
 
210. https://www.encyclopediaofmath.org/legacyimages/t/t120/t120150/t12015040.png ; $\pi ^ { \prime } ( \eta )$ ; confidence 0.999
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227. https://www.encyclopediaofmath.org/legacyimages/r/r130/r130100/r13010051.png ; $( i + 1 , x )$ ; confidence 0.998
 
227. https://www.encyclopediaofmath.org/legacyimages/r/r130/r130100/r13010051.png ; $( i + 1 , x )$ ; confidence 0.998
  
228. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120040/f12004016.png ; $W = X ^ { * }$ ; confidence 0.998
+
228. https://www.encyclopediaofmath.org/legacyimages/f/f120/f120040/f12004016.png ; $W = X ^ { * },$ ; confidence 0.998
  
 
229. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c1201806.png ; $( M , \lambda g )$ ; confidence 0.998
 
229. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c1201806.png ; $( M , \lambda g )$ ; confidence 0.998
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233. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120200/s12020021.png ; $\lambda = ( 4,3,1,1 )$ ; confidence 0.998
 
233. https://www.encyclopediaofmath.org/legacyimages/s/s120/s120200/s12020021.png ; $\lambda = ( 4,3,1,1 )$ ; confidence 0.998
  
234. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130410/s1304106.png ; $\lambda _ { i } \in R ^ { + }$ ; confidence 0.998
+
234. https://www.encyclopediaofmath.org/legacyimages/s/s130/s130410/s1304106.png ; $\lambda _ { i } \in \mathbf{R} ^ { + }$ ; confidence 0.998
  
 
235. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c12018039.png ; $r \geq 0$ ; confidence 0.998
 
235. https://www.encyclopediaofmath.org/legacyimages/c/c120/c120180/c12018039.png ; $r \geq 0$ ; confidence 0.998
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246. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130300/b13030040.png ; $| B ( 4,4 ) | = 2 ^ { 422 }$ ; confidence 0.998
 
246. https://www.encyclopediaofmath.org/legacyimages/b/b130/b130300/b13030040.png ; $| B ( 4,4 ) | = 2 ^ { 422 }$ ; confidence 0.998
  
247. https://www.encyclopediaofmath.org/legacyimages/n/n120/n120020/n12002029.png ; $\mu ^ { \prime } \in M ( E )$ ; confidence 0.998
+
247. https://www.encyclopediaofmath.org/legacyimages/n/n120/n120020/n12002029.png ; $\mu ^ { \prime } \in \mathcal{M} ( E )$ ; confidence 0.998
  
 
248. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120300/b12030025.png ; $| \eta | ^ { 2 } = \lambda$ ; confidence 0.998
 
248. https://www.encyclopediaofmath.org/legacyimages/b/b120/b120300/b12030025.png ; $| \eta | ^ { 2 } = \lambda$ ; confidence 0.998
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280. https://www.encyclopediaofmath.org/legacyimages/c/c025/c025830/c0258305.png ; $H = H _ { 1 }$ ; confidence 0.998
 
280. https://www.encyclopediaofmath.org/legacyimages/c/c025/c025830/c0258305.png ; $H = H _ { 1 }$ ; confidence 0.998
  
281. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130030/z13003026.png ; $f ( t ) = ( 2 \gamma ) ^ { 1 / 4 } \operatorname { exp } ( - \pi \gamma t ^ { 2 } ) , \gamma > 0.$ ; confidence 0.998
+
281. https://www.encyclopediaofmath.org/legacyimages/z/z130/z130030/z13003026.png ; $f ( t ) = ( 2 \gamma ) ^ { 1 / 4 } \operatorname { exp } ( - \pi \gamma t ^ { 2 } ) , \gamma > 0,$ ; confidence 0.998
  
 
282. https://www.encyclopediaofmath.org/legacyimages/v/v120/v120020/v120020174.png ; $q \circ p ^ { - 1 }$ ; confidence 0.998
 
282. https://www.encyclopediaofmath.org/legacyimages/v/v120/v120020/v120020174.png ; $q \circ p ^ { - 1 }$ ; confidence 0.998

Latest revision as of 18:20, 28 March 2020

List

1. b1201406.png ; $\operatorname { deg } S ( z ) < 2 t$ ; confidence 0.999

2. c120170166.png ; $2 k - 1$ ; confidence 0.999

3. a12027011.png ; $\Lambda ( s , \rho )$ ; confidence 0.999

4. g045090232.png ; $G ( z , w ) =$ ; confidence 0.999

5. l06005032.png ; $( m < n )$ ; confidence 0.999

6. i13007083.png ; $A ( \alpha ^ { \prime } , \alpha )$ ; confidence 0.999

7. f120150178.png ; $\Gamma ( A ) > 0$ ; confidence 0.999

8. a12011018.png ; $A ( 1 , n ) = n + 2$ ; confidence 0.999

9. b1301908.png ; $\alpha = \operatorname { log } M / \operatorname { log } T \in ( 0,1 )$ ; confidence 0.999

10. b12016070.png ; $n = 4,5,6$ ; confidence 0.999

11. e13005021.png ; $+ \frac { \Gamma ( 1 - \alpha - \beta ) } { 2 \Gamma ( 1 - \alpha ) \Gamma ( 1 - \beta ) } ( y - x ) ^ { t - \alpha - \beta }.$ ; confidence 0.999

12. a13007090.png ; $m < n$ ; confidence 0.999

13. a120280110.png ; $x \neq 0$ ; confidence 0.999

14. k12005057.png ; $q \leq r ( d + 1 )$ ; confidence 0.999

15. p07289018.png ; $( n \times p )$ ; confidence 0.999

16. i12008020.png ; $( A B )$ ; confidence 0.999

17. b12005034.png ; $\{ f \in \mathcal{H} ^ { \infty } ( B _ { E } ) : f \, \text{continuous and bounded on}\,\overline{B_E}\};$ ; confidence 0.999

18. a0133806.png ; $\lambda \in \mathbf{R}$ ; confidence 0.999

19. e120070108.png ; $\beta ( f )$ ; confidence 0.999

20. r08149043.png ; $V ( \lambda )$ ; confidence 0.999

21. f13016031.png ; $\Gamma ( \xi \oplus \eta )$ ; confidence 0.999

22. t130050164.png ; $\lambda \in \mathbf{B} _ { 4 }$ ; confidence 0.999

23. f12011092.png ; $U \backslash \Omega$ ; confidence 0.999

24. a12005041.png ; $\| ( \lambda - A ( t ) ) ^ { - 1 } \| \leq M / ( 1 + | \lambda | )$ ; confidence 0.999

25. m12016056.png ; $( p _ { 1 } \times n _ { 1 } )$ ; confidence 0.999

26. s13002034.png ; $N = \partial M$ ; confidence 0.999

27. h12011021.png ; $B ( 0 , r / 2 )$ ; confidence 0.999

28. d03024029.png ; $f_{ \langle2 k + 1 \rangle} ( 0 )$ ; confidence 0.999

29. b12024015.png ; $A ( \overline { U } , V )$ ; confidence 0.999

30. d120020237.png ; $( \overline { \lambda } , \overline { \mu } )$ ; confidence 0.999

31. j13004080.png ; $s ( L )$ ; confidence 0.999

32. w1202007.png ; $R [ f ] = ( r , f )$ ; confidence 0.999

33. c1102505.png ; $( p , q )$ ; confidence 0.999

34. s13059024.png ; $M [ L ] > 0$ ; confidence 0.999

35. c02242020.png ; $\alpha , \beta > - 1$ ; confidence 0.999

36. k1200705.png ; $\mathcal{R} ( t ) \in \mathcal{L} ( V )$ ; confidence 0.999

37. a1301201.png ; $\mathcal{D} = ( V , \mathcal{B} )$ ; confidence 0.999

38. z12001063.png ; $W _ { 1 } ( 1 )$ ; confidence 0.999

39. l12003091.png ; $\tau ( R ^ { * } )$ ; confidence 0.999

40. k13001036.png ; $\operatorname{Tait}( \vec { D } )$ ; confidence 0.999

41. c13007012.png ; $Y ^ { 2 } = X ^ { 3 }$ ; confidence 0.999

42. d13017035.png ; $| \Omega |$ ; confidence 0.999

43. h120120134.png ; $f \cup g = m ( f \otimes g ) \Delta$ ; confidence 0.999

44. j13007039.png ; $( 1 / ( 1 + k ) ) \omega$ ; confidence 0.999

45. b12043028.png ; $h \rightarrow ( h , h )$ ; confidence 0.999

46. h04602043.png ; $R \in H ^ { \infty }$ ; confidence 0.999

47. n13003034.png ; $- T \Delta w ( x , y )$ ; confidence 0.999

48. p13012030.png ; $\sigma ( K ) = - 2$ ; confidence 0.999

49. a130070131.png ; $> 20162$ ; confidence 0.999

50. h04601058.png ; $\tau ( W , M _ { 0 } ) = 0$ ; confidence 0.999

51. i13007042.png ; $\xi \in \mathbf{R} ^ { 3 }$ ; confidence 0.999

52. b12032099.png ; $F ( m ^ { 1 / p } , n ^ { 1 / p } ) = ( n + m ) ^ { 1 / p }$ ; confidence 0.999

53. l0600302.png ; $A ^ { \prime } A$ ; confidence 0.999

54. b12013091.png ; $\| \varphi \| _ { p } = 1$ ; confidence 0.999

55. d031930128.png ; $\Delta u = 0$ ; confidence 0.999

56. t13010053.png ; $\Gamma ( B )$ ; confidence 0.999

57. b12010047.png ; $U ( t )$ ; confidence 0.999

58. a01018053.png ; $\sigma > 0$ ; confidence 0.999

59. v09604020.png ; $s ( r ) \equiv r$ ; confidence 0.999

60. c1300408.png ; $\beta ( z ) : = \frac { 1 } { 2 } \left[ \psi \left( \frac { 1 } { 2 } z + \frac { 1 } { 2 } \right) - \psi \left( \frac { 1 } { 2 } z \right) \right] =$ ; confidence 0.999

61. s12028026.png ; $D ^ { 2 } X \approx X.$ ; confidence 0.999

62. c12029045.png ; $w : R \rightarrow P$ ; confidence 0.999

63. e1200601.png ; $p : Y \rightarrow M$ ; confidence 0.999

64. b12030054.png ; $\phi = \phi ( y ; \eta )$ ; confidence 0.999

65. c13007031.png ; $n ( n - 1 ) / 2 - 1 - ( n - 1 ) ( n - 2 ) / 2 = n - 2$ ; confidence 0.999

66. c12002072.png ; $m ( x ^ { \prime } )$ ; confidence 0.999

67. e120140101.png ; $( ( \neg \varphi \rightarrow \varphi ) \rightarrow \varphi ) = 1$ ; confidence 0.999

68. q12005082.png ; $\theta = 1$ ; confidence 0.999

69. q12005076.png ; $\theta = \theta ^ { k }$ ; confidence 0.999

70. o130060184.png ; $\frac { \partial ^ { 2 } f } { \partial t _ { 1 } \partial t _ { 2 } } = \frac { \partial ^ { 2 } f } { \partial t _ { 2 } \partial t _ { 1 } }.$ ; confidence 0.999

71. d1300101.png ; $h ( x , y )$ ; confidence 0.999

72. a13013029.png ; $\phi _ { + } = \operatorname { exp } \left( \sum _ { j = 1 } ^ { \infty } \phi _ { j } ( x , t ) z ^ { j } \right),$ ; confidence 0.999

73. e120190160.png ; $W ^ { + } ( h _ { 1 } , h _ { 2 } , p )$ ; confidence 0.999

74. d12018068.png ; $L ^ { 4 } ( X , m )$ ; confidence 0.999

75. c12004046.png ; $\rho ^ { \prime }$ ; confidence 0.999

76. g04339011.png ; $h \rightarrow \delta f ( x _ { 0 } , h )$ ; confidence 0.999

77. l12009042.png ; $\Gamma ( T M )$ ; confidence 0.999

78. r13010038.png ; $n = 6,7,8$ ; confidence 0.999

79. k0554805.png ; $\phi ( x , t )$ ; confidence 0.999

80. f12005053.png ; $f = T ^ { 2 } + T + \beta$ ; confidence 0.999

81. a01412076.png ; $n ( n - 1 ) / 2$ ; confidence 0.999

82. c020740261.png ; $\alpha = \beta$ ; confidence 0.999

83. f04049045.png ; $F = \sigma _ { 2 } ^ { 2 } s _ { 1 } ^ { 2 } / \sigma _ { 1 } ^ { 2 } s _ { 2 } ^ { 2 }$ ; confidence 0.999

84. z13013042.png ; $z = \operatorname { exp } ( i \theta _ { 0 } )$ ; confidence 0.999

85. l06004010.png ; $f _ { k + 1 } ( z )$ ; confidence 0.999

86. t12020090.png ; $1 + \theta + \operatorname { log } \theta = 0$ ; confidence 0.999

87. w13007027.png ; $( \alpha _ { k } | \beta _ { l } ) = 0$ ; confidence 0.999

88. b12031030.png ; $( n - 1 - 2 \delta ) / 2 n < 1 / p < ( n + 1 + 2 \delta ) / 2 n$ ; confidence 0.999

89. e12021031.png ; $| z | \neq 1$ ; confidence 0.999

90. g130060124.png ; $\sigma ( \Omega ( A ) )$ ; confidence 0.999

91. f1300707.png ; $F ( 2 , m )$ ; confidence 0.999

92. e12006066.png ; $[ \Gamma , [ \Gamma , \Gamma ] ] = 0,$ ; confidence 0.999

93. s12022062.png ; $\operatorname { det } ( \Delta )$ ; confidence 0.999

94. b120150149.png ; $p p _ { i } + ( 1 - p ) ( 1 - p _ { i } )$ ; confidence 0.999

95. d13013054.png ; $A ^ { \pm } = \frac { n } { 2 } ( \pm 1 - \operatorname { cos } \theta ) d \phi ,$ ; confidence 0.999

96. b12020015.png ; $\theta H ^ { 2 } = \left\{ \theta ( z ) f ( z ) : f \in H ^ { 2 } \right\},$ ; confidence 0.999

97. s12026042.png ; $\phi : [ 0,1 ] \rightarrow ( L ^ { 2 } )$ ; confidence 0.999

98. q12005067.png ; $\phi = \phi ^ { k }$ ; confidence 0.999

99. h04601066.png ; $\tau ( W , M _ { 0 } )$ ; confidence 0.999

100. b130200196.png ; $\epsilon ( s ) = 0$ ; confidence 0.999

101. s130510112.png ; $\gamma ( u ) = \gamma ( v )$ ; confidence 0.999

102. s12017015.png ; $F ( A , d )$ ; confidence 0.999

103. a12005022.png ; $U ( t , r ) U ( r , s ) = U ( t , s )$ ; confidence 0.999

104. w12006013.png ; $T _ { A } f ( \varphi ) ( g ) = \varphi ( g \circ f ),$ ; confidence 0.999

105. h13007052.png ; $D + r D$ ; confidence 0.999

106. f13007030.png ; $n = 4,5,6,8,12$ ; confidence 0.999

107. h1301207.png ; $d ( h ( x y ) , h ( x ) h ( y ) ) < \delta$ ; confidence 0.999

108. a13027068.png ; $\phi ( t ) \rightarrow \infty$ ; confidence 0.999

109. g12007019.png ; $m \equiv 1,2$ ; confidence 0.999

110. a12007059.png ; $f \in B ( D _ { A } ( \alpha , \infty ) )$ ; confidence 0.999

111. b12031049.png ; $f = 0$ ; confidence 0.999

112. a12008051.png ; $\frac { d ^ { 2 } u } { d t ^ { 2 } } + A ( t ) u = f ( t ) , t \in [ 0 , T ].$ ; confidence 0.999

113. b12006011.png ; $\frac { \partial ^ { 2 } w } { \partial z \partial \overline{z}} + \epsilon \frac { n ( n + 1 ) } { ( 1 + \epsilon z \overline{z} ) ^ { 2 } } w = 0,$ ; confidence 0.999

114. m12016033.png ; $( q \times q )$ ; confidence 0.999

115. b12051090.png ; $d = H _ { 0 } ^ { - 1 } d$ ; confidence 0.999

116. l05897018.png ; $0 < \rho < 1$ ; confidence 0.999

117. o130010156.png ; $\theta , \theta ^ { \prime } \in M$ ; confidence 0.999

118. b12031036.png ; $( n - 1 - 2 \delta ) / 2 n < 1 / p < ( n - 1 + 2 \delta ) / 2 n$ ; confidence 0.999

119. a12010047.png ; $R ( I + A ) = X$ ; confidence 0.999

120. h0460806.png ; $H ^ { T }$ ; confidence 0.999

121. t09408025.png ; $\Omega ( X ; A , B )$ ; confidence 0.999

122. a11030026.png ; $( T V , d )$ ; confidence 0.999

123. c11041059.png ; $[0 , \infty ]$ ; confidence 0.999

124. r13004058.png ; $\frac { 1 } { \mu _ { 2 } ( \Omega ) } + \frac { 1 } { \mu _ { 3 } ( \Omega ) } \geq \frac { 2 A } { \pi p _ { 1 } ^ { 2 } },$ ; confidence 0.999

125. f120150177.png ; $\Phi _ { + } ( X , Y )$ ; confidence 0.999

126. k12004034.png ; $11_{257}$ ; confidence 0.999

127. w13009046.png ; $\sqrt { n ! }$ ; confidence 0.999

128. f11001052.png ; $y \in A ^ { + }$ ; confidence 0.999

129. c12003027.png ; $g ( t ) = f ( t , u ( t ) )$ ; confidence 0.999

130. v0960305.png ; $z ( t ) = \int _ { 0 } ^ { t } x ( \tau ) d \tau$ ; confidence 0.999

131. n13005031.png ; $( s , r , \mu )$ ; confidence 0.999

132. n13003040.png ; $w ( x , y ) = 0$ ; confidence 0.999

133. a12005050.png ; $U ( t , s )$ ; confidence 0.999

134. w12007028.png ; $= \left( p + p ^ { \prime } , q + q ^ { \prime } , t + t ^ { \prime } + \frac { 1 } { 2 } ( p q ^ { \prime } - q p ^ { \prime } ) \right).$ ; confidence 0.999

135. b13025065.png ; $\frac { 1 } { \operatorname { sin } ^ { 2 } \omega } = \frac { 1 } { \operatorname { sin } ^ { 2 } \alpha } + \frac { 1 } { \operatorname { sin } ^ { 2 } \beta } + \frac { 1 } { \operatorname { sin } ^ { 2 } \gamma }.$ ; confidence 0.999

136. a0102206.png ; $2 p$ ; confidence 0.999

137. r1301307.png ; $\sigma \subset \sigma ( A )$ ; confidence 0.999

138. d03278014.png ; $G \subset \mathbf{R} ^ { 2 }$ ; confidence 0.999

139. a120050125.png ; $A ( t , u )$ ; confidence 0.999

140. g120040179.png ; $\sigma = 1 / ( s - 1 ) > 0$ ; confidence 0.999

141. c12004018.png ; $M = \Gamma$ ; confidence 0.999

142. h12004025.png ; $\eta < \lambda$ ; confidence 0.999

143. s1202108.png ; $E ( \lambda , D _ { Y } )$ ; confidence 0.999

144. m12013080.png ; $p \in ( 1 / 2,3 / 2 )$ ; confidence 0.999

145. s13054024.png ; $\pi : H \rightarrow G$ ; confidence 0.999

146. l1300805.png ; $| \omega | \geq 1$ ; confidence 0.999

147. d13008016.png ; $\xi \in \partial \Delta$ ; confidence 0.999

148. d12028093.png ; $A ( U ^ { \prime } )$ ; confidence 0.999

149. t09356039.png ; $s ( x , y ) = \phi ( y ^ { * } x )$ ; confidence 0.999

150. t120200206.png ; $\max_{r \in I} \text{Re} \, G_2 (r ) \geq M$ ; confidence 0.999

151. n06752072.png ; $K = F [ \lambda ]$ ; confidence 0.999

152. a13008045.png ; $\alpha ( s ) = \frac { f ( L ( s ) ) } { g ( L ( s ) ; m ( s ) , s ) } = \frac { f ( R ( s ) ) } { g ( R ( s ) ; m ( s ) , s ) }.$ ; confidence 0.999

153. a11028056.png ; $\chi ( G )$ ; confidence 0.999

154. m13011024.png ; $\phi = \phi ( x , t )$ ; confidence 0.999

155. i13006028.png ; $- k ^ { 2}j $ ; confidence 0.999

156. f12005017.png ; $\operatorname { gcd } ( n , p ) \neq 1$ ; confidence 0.999

157. m1302201.png ; $196884 = 196883 + 1$ ; confidence 0.999

158. d12023045.png ; $p + q = r$ ; confidence 0.999

159. d120230133.png ; $R _ { 12 } = I = R _ { 21 }$ ; confidence 0.999

160. i12006026.png ; $[ L ( x ) , U ( x ) ]$ ; confidence 0.999

161. d12015037.png ; $( v , n ) > 1$ ; confidence 0.999

162. c02583050.png ; $m _ { T } ( T ) = 0$ ; confidence 0.999

163. a12011032.png ; $T ( 2 , n )$ ; confidence 0.999

164. m12016022.png ; $B ( n \times m )$ ; confidence 0.999

165. a12023029.png ; $\Omega = \{ \zeta : \psi ( \zeta ) < 0 \}$ ; confidence 0.999

166. m13018051.png ; $x \geq y > 0$ ; confidence 0.999

167. s086520150.png ; $\phi \in H ^ { \infty }$ ; confidence 0.999

168. a01300017.png ; $R ( z )$ ; confidence 0.999

169. v1100603.png ; $\nu \in ( - 1,1 / 2 )$ ; confidence 0.999

170. p130070123.png ; $\operatorname { log } \operatorname { tanh } C ( z , w ) \leq W ( z , w ) \leq$ ; confidence 0.999

171. h120020158.png ; $| \nu ( t ) - \nu ( - t ) | \leq 2$ ; confidence 0.999

172. a01191025.png ; $A \cap B$ ; confidence 0.999

173. e120070133.png ; $\operatorname{dim} \, H ^ { 1 }$ ; confidence 0.999

174. i12008023.png ; $F ( T , H )$ ; confidence 0.999

175. m12003023.png ; $\int \Psi ( x , T ( G ) ) d G ( x ) = 0.$ ; confidence 0.999

176. s12017010.png ; $A \in \mathcal{X}$ ; confidence 0.999

177. c02583015.png ; $T = T _ { 0 } \otimes T _ { 1 }$ ; confidence 0.999

178. a13023047.png ; $U + V$ ; confidence 0.999

179. a1200602.png ; $u ( x , t ) \in P ( x ) , \quad ( x , t ) \in \partial \Omega \times [ 0 , T ].$ ; confidence 0.999

180. a130050222.png ; $\eta < \delta$ ; confidence 0.999

181. b13028054.png ; $B ( 2 n )$ ; confidence 0.999

182. c130070174.png ; $2 \delta ( P )$ ; confidence 0.999

183. w13017057.png ; $\int _ { - \pi } ^ { \pi } \operatorname { log } \operatorname { det } f ( \lambda ) d \lambda > - \infty.$ ; confidence 0.999

184. r13008034.png ; $R ( K ) = H$ ; confidence 0.999

185. e120120118.png ; $\int f ( \theta , \phi ) d \phi$ ; confidence 0.999

186. d031930178.png ; $\zeta = \xi + i \eta$ ; confidence 0.999

187. b11066024.png ; $p < \infty$ ; confidence 0.999

188. w12021029.png ; $m \leq 40$ ; confidence 0.999

189. f12010052.png ; $\tau ( n ) \neq 0$ ; confidence 0.999

190. h1200308.png ; $\tau ( \varphi ) = 0$ ; confidence 0.999

191. b12050012.png ; $W ^ { + } : = \{ | W _ { t } | : t \geq 0 \}$ ; confidence 0.999

192. a120310106.png ; $B ( K ) / M ( K ) = C ( S )$ ; confidence 0.999

193. r13008055.png ; $f ( z , z _ { 0 } ) = 0$ ; confidence 0.999

194. a011370125.png ; $f \in A$ ; confidence 0.999

195. c023110102.png ; $p A = 0$ ; confidence 0.999

196. l13006019.png ; $m = p$ ; confidence 0.999

197. z13001055.png ; $x ( 3 ) = 10$ ; confidence 0.999

198. m12015024.png ; $f _ { X , Y } ( X , Y )$ ; confidence 0.999

199. e120070138.png ; $1 \leq h \leq t - 1$ ; confidence 0.999

200. l12010061.png ; $\gamma < 1$ ; confidence 0.999

201. l12010097.png ; $H = - \Delta + V ( x )$ ; confidence 0.999

202. t12001070.png ; $\tau = ( \tau _ { 1 } , \tau _ { 2 } , \tau _ { 3 } ) \in \mathbf{R} ^ { 3 }$ ; confidence 0.999

203. y120010121.png ; $R = \mathcal{R} _ { \mathcal{V} }$ ; confidence 0.999

204. b12022059.png ; $f ^ { 0 } ( x , \xi ) = M ( u ^ { 0 } ( x ) , \xi )$ ; confidence 0.999

205. l05763020.png ; $f ( t ) \leq g ( t )$ ; confidence 0.999

206. b120040152.png ; $X ^ { 1 / 2 } ( X ^ { \prime } ) ^ { 1 / 2 } = L _ { 2 }$ ; confidence 0.999

207. f12002013.png ; $Q ( 0 ) = 1$ ; confidence 0.999

208. a120160109.png ; $1,160$ ; confidence 0.999

209. z13001058.png ; $x ( n ) = \left( \frac { 3 } { 4 } n ^ { 2 } - \frac { 11 } { 4 } n - 4 \right) ( - 2 ) ^ { n } + 4 ( - 3 ) ^ { n }.$ ; confidence 0.999

210. t12015040.png ; $\pi ^ { \prime } ( \eta )$ ; confidence 0.999

211. f1201906.png ; $g \in G \backslash H$ ; confidence 0.999

212. a130050295.png ; $k > 1$ ; confidence 0.999

213. f110160109.png ; $i < j$ ; confidence 0.999

214. s13065072.png ; $\alpha , \beta \in \{ - 1 / 2,1 / 2 \}$ ; confidence 0.999

215. a12008020.png ; $L ^ { 2 } ( \Omega )$ ; confidence 0.999

216. d03177065.png ; $\mu \rightarrow 0$ ; confidence 0.999

217. a01148096.png ; $k - 1$ ; confidence 0.999

218. a12002020.png ; $f : X \rightarrow Z$ ; confidence 0.999

219. l12008013.png ; $L ( u ) = g$ ; confidence 0.999

220. e12015071.png ; $\lambda _ { 1 } \neq \lambda _ { 2 }$ ; confidence 0.999

221. w1300405.png ; $z = u + i v$ ; confidence 0.999

222. b13016078.png ; $C ( X , \tau )$ ; confidence 0.999

223. a13009029.png ; $k + 1$ ; confidence 0.999

224. t120200126.png ; $0 < \delta _ { 1 } < \delta _ { 2 } < n / ( m + n + 1 )$ ; confidence 0.998

225. w1301303.png ; $W = \int _ { \Sigma } H ^ { 2 } d A,$ ; confidence 0.998

226. f120080157.png ; $B _ { p } ( X , X )$ ; confidence 0.998

227. r13010051.png ; $( i + 1 , x )$ ; confidence 0.998

228. f12004016.png ; $W = X ^ { * },$ ; confidence 0.998

229. c1201806.png ; $( M , \lambda g )$ ; confidence 0.998

230. a011490140.png ; $y ( x )$ ; confidence 0.998

231. i05079032.png ; $x = 2$ ; confidence 0.998

232. o12006052.png ; $C ^ { \infty } ( \Omega ) \cap W ^ { k } E _ { \Phi } ( \Omega )$ ; confidence 0.998

233. s12020021.png ; $\lambda = ( 4,3,1,1 )$ ; confidence 0.998

234. s1304106.png ; $\lambda _ { i } \in \mathbf{R} ^ { + }$ ; confidence 0.998

235. c12018039.png ; $r \geq 0$ ; confidence 0.998

236. e035000106.png ; $\pi ( A \times X ) = \pi ( X \times A ) = \mu ( A )$ ; confidence 0.998

237. o13008060.png ; $f _ { 1 } - f _ { 2 } : = f$ ; confidence 0.998

238. d03426069.png ; $i = 1,2,3$ ; confidence 0.998

239. v12002026.png ; $f : ( X , X _ { 0 } ) \rightarrow ( Y , Y _ { 0 } )$ ; confidence 0.998

240. a12004013.png ; $t \in ( 0 , \infty )$ ; confidence 0.998

241. c12028069.png ; $\pi ( K \times L ) \rightarrow \pi ( K ) \otimes \pi ( L )$ ; confidence 0.998

242. c1302509.png ; $\beta = 0$ ; confidence 0.998

243. b13025027.png ; $\gamma = \angle A C B$ ; confidence 0.998

244. b12008025.png ; $\operatorname { log } \operatorname { log } ( 1 / \epsilon )$ ; confidence 0.998

245. c02384052.png ; $A ^ { T }$ ; confidence 0.998

246. b13030040.png ; $| B ( 4,4 ) | = 2 ^ { 422 }$ ; confidence 0.998

247. n12002029.png ; $\mu ^ { \prime } \in \mathcal{M} ( E )$ ; confidence 0.998

248. b12030025.png ; $| \eta | ^ { 2 } = \lambda$ ; confidence 0.998

249. a120070111.png ; $C ( \overline { \Omega } )$ ; confidence 0.998

250. f120080138.png ; $\Lambda _ { G } = 2 n - 1$ ; confidence 0.998

251. h13005031.png ; $u ( x , 0 )$ ; confidence 0.998

252. f13007028.png ; $F ( 2,2 n )$ ; confidence 0.998

253. n067520278.png ; $\int _ { - \infty } ^ { + \infty } | F ( \xi ) | ^ { 2 } d ( E _ { \xi } h _ { 0 } , h _ { 0 } ) < \infty;$ ; confidence 0.998

254. e12015063.png ; $\varepsilon \neq 0$ ; confidence 0.998

255. b016670116.png ; $t \geq 2$ ; confidence 0.998

256. c13007068.png ; $\operatorname { gcd } ( e , d ) = 1$ ; confidence 0.998

257. d1202001.png ; $\sigma + i t$ ; confidence 0.998

258. m12023045.png ; $d f _ { t } \rightarrow \partial f$ ; confidence 0.998

259. h13006017.png ; $\tau ( m )$ ; confidence 0.998

260. z13010083.png ; $f ( y ) \in y$ ; confidence 0.998

261. m13003033.png ; $J ( q )$ ; confidence 0.998

262. l11001069.png ; $P \cap P = \{ 0 \}$ ; confidence 0.998

263. e120190195.png ; $\mu ( \Phi ) = \mu ( \Phi _ { 1 } ) + \mu ( \Phi _ { 2 } )$ ; confidence 0.998

264. i13006086.png ; $\delta ( \infty ) = 0$ ; confidence 0.998

265. o13008021.png ; $h ( x ) \equiv 0$ ; confidence 0.998

266. t13007013.png ; $h ( w ) : = \operatorname { log } ( g ( w ) / w )$ ; confidence 0.998

267. m1200404.png ; $\vec { F } = q ( \vec { E } + \vec { v } \times \vec { B } ),$ ; confidence 0.998

268. t12006051.png ; $\mu ( Z ) = 0$ ; confidence 0.998

269. e13007058.png ; $+ O ( T ^ { 1 / 3 } ) + O ( N ^ { 2 } T ^ { - 1 / 2 } ),$ ; confidence 0.998

270. c02253040.png ; $\pi _ { 1 } ( M )$ ; confidence 0.998

271. b12004038.png ; $g \in L ^ { 0 } ( \mu )$ ; confidence 0.998

272. l120170109.png ; $p s - q r = \pm 1$ ; confidence 0.998

273. c12008071.png ; $E , A$ ; confidence 0.998

274. c11044032.png ; $\alpha + \beta = 1$ ; confidence 0.998

275. l057000129.png ; $( \sigma \rightarrow \tau ) \in \mathbf{T}$ ; confidence 0.998

276. m12015019.png ; $f _ { X } ( X ) \geq 0$ ; confidence 0.998

277. l12008031.png ; $X + i Y$ ; confidence 0.998

278. a12012068.png ; $p ^ { * } > 0$ ; confidence 0.998

279. s1303701.png ; $\mathcal{D} = \mathcal{D} [ 0,1 ]$ ; confidence 0.998

280. c0258305.png ; $H = H _ { 1 }$ ; confidence 0.998

281. z13003026.png ; $f ( t ) = ( 2 \gamma ) ^ { 1 / 4 } \operatorname { exp } ( - \pi \gamma t ^ { 2 } ) , \gamma > 0,$ ; confidence 0.998

282. v120020174.png ; $q \circ p ^ { - 1 }$ ; confidence 0.998

283. a01296090.png ; $\alpha > 1 / 2$ ; confidence 0.998

284. m120120103.png ; $u ^ { - 1 } R u = R$ ; confidence 0.998

285. b130300160.png ; $G \cap B = \{ 1 \}$ ; confidence 0.998

286. a12024041.png ; $( E , h )$ ; confidence 0.998

287. j13007064.png ; $\eta \in \partial \Delta$ ; confidence 0.998

288. a12016035.png ; $\frac { d A } { d t } = f ( u ) ( 1 - A ) - b A,$ ; confidence 0.998

289. s13013026.png ; $H ^ { 2 } ( \Gamma , U _ { L } )$ ; confidence 0.998

290. v09604010.png ; $\Psi ( p )$ ; confidence 0.998

291. f110160188.png ; $P ( T , \omega )$ ; confidence 0.998

292. a13013022.png ; $\phi ( x , t , z ) =$ ; confidence 0.998

293. w130080102.png ; $( T _ { n } , \alpha _ { j } )$ ; confidence 0.998

294. t120050104.png ; $r = 1,2,3,4$ ; confidence 0.998

295. s1202207.png ; $L ^ { 2 } ( E )$ ; confidence 0.998

296. c02583063.png ; $0 \leq s \leq \infty$ ; confidence 0.998

297. c12026048.png ; $V _ { 0 } = V _ { J } = 0$ ; confidence 0.998

298. a01091018.png ; $m = 1$ ; confidence 0.998

299. m06462050.png ; $\phi > 0$ ; confidence 0.998

300. b11022073.png ; $A ( j )$ ; confidence 0.998

How to Cite This Entry:
Maximilian Janisch/latexlist/latex/NoNroff/6. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Maximilian_Janisch/latexlist/latex/NoNroff/6&oldid=44868