M U S T A M Ä E   B R I D Ž I K L U B I B O A R D   N R .   1 B O A R D   N R .   2 B O A R D   N R .   3
P A A R I T U R N I I R   -   3 0 . 0 7 . 2 0 1 5 P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
G E N E R E E R I T U D   :   3 0 . 0 7 . 2 0 1 5   1 4 : 5 3 : 0 8 2,0 1   2 S -1   50 2 4,0 0,0 1   4 N -1   100 2 6,0 4,0 1 170 2♠ N +2     2 2,0
RESULTS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATIONS PROGRAM 4,0 8 100 2 E -2     3 2,0 3,0 8 140 3 N =     3 3,0 6,0 8 200 2♠ N +3     3 0,0
1 62,50% 5 Kuivallik, Tõnu Ruubel,Silvi 6,0 6 120 2Nt S =     9 0,0 6,0 6 170 3 N +1     9 0,0 2,0 6 140 3♠ N =     9 4,0
2 57,64% 7 Laugen, Ülo Ruubel, Taavi 0,0 7   2 E =   110 5 6,0 3,0 7 140 1 N +2     5 3,0 0,0 7   4♠ N -1   50 5 6,0
3 53,47% 2 Aavekukk, Agu Suurväli, Albert B O A R D   N R .   4 B O A R D   N R .   5 B O A R D   N R .   6
4 50,00% 4 Helmvee, Fatima Uuring, Siiri P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
5 47,22% 6 Abram, Max Vassiljev, Aleksander 4,0 1 100 2 W -1     9 2,0 1,0 1   3♠ S -3   300 9 5,0 2,0 1   4 W +2   680 9 4,0
6= 46,53% 9 Hallika, Toivo Kangur, Konstantin 4,0 3 100 3Nt E -1     4 2,0 4,0 3 100 3x E -1     4 2,0 6,0 3 100 3Nt W -1     4 0,0
6= 46,53% 8 Hibus, Peeter Järve, Jaan 4,0 5 100 2♣ E -1     2 2,0 1,0 5   3 S -3   300 2 5,0 0,0 5   6 E =   1430 2 6,0
8 45,83% 3 Keridan, Tõnis Tammesalu, Vahur 0,0 6   2♣ E +1   110 8 6,0 6,0 6 500 5x E -3     8 0,0 4,0 6   4 W +1   650 8 2,0
9 40,28% 1 Pärn, Mall Purman, Volli B O A R D   N R .   7 B O A R D   N R .   8 B O A R D   N R .   9
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 1   3Nt E +1   630 7 6,0 3,0 1   3 W =   140 7 3,0 5,0 1 100 3Nt E -1     7 1,0
2,0 4   3♠ W =   140 2 4,0 6,0 4 50 3 W -1     2 0,0 0,0 4   3Nt E +1   630 2 6,0
6,0 5 300 3Nt E -3     6 0,0 3,0 5   2 W +1   140 6 3,0 5,0 5 100 3Nt E -1     6 1,0
4,0 8 100 2♠ W -1     9 2,0 0,0 8   3 W +1   170 9 6,0 2,0 8   2♠ S -3   150 9 4,0
B O A R D   N R .   1 0 B O A R D   N R .   1 1 B O A R D   N R .   1 2
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
4,0 1   2♠ S -1   100 6 2,0 0,0 1   4♠ W =   420 6 6,0 4,0 1 170 3 N +1     6 2,0
6,0 2 140 2♠ S +1     9 0,0 6,0 2 50 4♠ E -1     9 0,0 0,0 2   3Nt N -1   100 9 6,0
2,0 3   3♣ W =   110 7 4,0 3,0 3   3♠ W =   140 7 3,0 2,0 3 50 3♠ W -1     7 4,0
0,0 5   4♠x S -1   200 4 6,0 3,0 5   3♠ W =   140 4 3,0 6,0 5 600 4♠xx E -2     4 0,0
B O A R D   N R .   1 3 B O A R D   N R .   1 4 B O A R D   N R .   1 5
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 9   4♠x N -1   200 7 6,0 5,0 9 100 3 W -2     7 1,0 3,0 9 100 3♠ W -2     7 3,0
2,0 3 100 4 W -1     5 4,0 1,0 3 50 2 W -1     5 5,0 3,0 3 100 2♠ E -2     5 3,0
4,0 4 200 5x E -1     6 2,0 5,0 4 100 3 W -2     6 1,0 0,0 4   3 S -1   100 6 6,0
6,0 8 500 6x E -2     2 0,0 1,0 8 50 2 W -1     2 5,0 6,0 8 110 2 S +1     2 0,0
B O A R D   N R .   1 6 B O A R D   N R .   1 7 B O A R D   N R .   1 8
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
2,0 1 130 3 S +1     5 4,0 3,0 1 50 3Nt W -1     5 3,0 0,0 1   3♣ S -2   200 5 6,0
5,0 7 150 4 S +1     6 1,0 3,0 7 50 3Nt W -1     6 3,0 2,0 7   3 W +1   130 6 4,0
5,0 4 150 3 N +2     8 1,0 3,0 4 50 4 E -1     8 3,0 6,0 4 670 2x N =     8 0,0
0,0 3   4 S -1   50 9 6,0 3,0 3 50 3Nt W -1     9 3,0 4,0 3 110 2♠ S =     9 2,0
B O A R D   N R .   1 9 B O A R D   N R .   2 0 B O A R D   N R .   2 1
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
1,0 1 170 4 S +2     8 5,0 0,0 1 90 2♣ N =     8 6,0 6,0 1 100 3Nt W -2     8 0,0
6,0 2 1010 6 S +1     3 0,0 5,0 2 200 1Nt W -2     3 1,0 4,0 2 50 3Nt W -1     3 2,0
4,0 9 920 6 S =     5 2,0 2,0 9 180 2♣x N =     5 4,0 2,0 9   2♠ W +1   140 5 4,0
1,0 4 170 2 S +4     7 5,0 5,0 4 200 2Nt W -2     7 1,0 0,0 4   3Nt W +1   430 7 6,0
B O A R D   N R .   2 2 B O A R D   N R .   2 3 B O A R D   N R .   2 4
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
2,0 1   4 E +2   680 3 4,0 4,0 1   2Nt S -1   100 3 2,0 4,0 1 450 4 S +1     3 2,0
6,0 9   4 W +1   650 4 0,0 1,0 9   3Nt S -2   200 4 5,0 0,0 9 420 4 S =     4 6,0
2,0 7   5 W +1   680 8 4,0 6,0 7 200 1 W -2     8 0,0 4,0 7 450 4 S +1     8 2,0
2,0 2   4 E +2   680 6 4,0 1,0 2   3Nt N -2   200 6 5,0 4,0 2 450 4 S +1     6 2,0
B O A R D   N R .   2 5 B O A R D   N R .   2 6 B O A R D   N R .   2 7
P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW P-NS NS R-NS CNT P TR L R-EW EW P-EW
1,0 1 420 4♠ N =     4 5,0 1,0 1 680 4♠ N +2     4 5,0 5,0 1   4 S -1   50 4 1,0
5,0 5 450 4♠ N +1     8 1,0 5,0 5 1430 6♠ N =     8 1,0 2,0 5   3♠ W =   140 8 4,0
5,0 7 450 4♠ N +1     2 1,0 5,0 7 1430 6♠ N =     2 1,0 5,0 7   4 N -1   50 2 1,0
1,0 6 420 4♠ N =     3 5,0 1,0 6 680 4♠ N +2     3 5,0 0,0 6   5x S -2   300 3 6,0