Stellar velocity distribution 



TABLE III (continued). 





7f 



M 



magn <" 4,9 



magn > 



5.0 



all stars 



Square 























































-§ t 











w 



z 



JM 



n 



z o 









■M 



ii 







n 



~o 

















■£> « 

























Q 16 







+ 1 40 





1 0 







g 



0 11 



— 



18 







A 



1 5 



2 17 



1 









1 1* 



1 19» 



1.128 







3 3^ 



1 



3l 1 



— .9-7 



j 



B l 



to 



2 86 





2 







2o 







15 



1 (j7 



2 



A 1 



0 850 



_ 



B s 



g 



_|_ Q 95 





3 



0 10 





29 



+ 1 976 



1 





1 g6 



2 



aß 

 .it) 





3 



B s 



io 



— j— 0 30 





2 



+ 4.37 





9 2 



j j 







j ^ 7g 



1 



••>,s 



+ 1 743 





B i 



g 



+ 3 07 







~T 





1 9 



j 1 7 gg 





0 



+ 2.28 



1 



07 

 <2< 



+ 1 .919 



1 



B å 



8 







1 





1 



Lit 



— 0.423 



— 



1 1 



— 1.46 



2 



30 



— O.802 



2 



B° 9 



2 



_ 9 64 





3 



_ 4 88 





18 



— 2.061 





6 



2 55 





24 







B. 





1 j2 



1 



2 



1 3^ 





21 





1 



Q 



g ^ 



2 



"24 





3 



B % 



g 







2 



g gg 







_ 4 100 





12 





1 



35 



_ 4 179 



1 



bI 



14 



— 3^97 



1 



1 



— 4.33 







27 



— 3.051 



1 



15 



— 4.36 



1 



42 



— 3.519 



2 



B . 



JJ 10 



12 



— 2.04 



— 



2 



+ 1.86 



— 



26 



— 2.413 



— 



8 



- 0.53 



1 



34 



— 1.955 



1 



Ci 



9 



_|_ ] _jß 





1 



+ 9. 48 





20 



j j 745 



1 



4. 



2,ifl 





24 



+ 1 090 



1 





g 



+ 1 74 











Ait 









+ 4 12 



2 





j 1 7^ 



2 



c. 



9 



1 R ne 



1 





+ 4 75 





43 



+ 5779 



2 



12 



"t" ö.b» 





55 



+ 5.322 



9 



C 4 



10 



j y 49 





„ 







■ >■) 



j 3 437 



[ 



12 



+ 1 61 





34 





1 



c. 



3 



~^ 0 18 





1 



+ 4 92 





18 



j 4 jgg 





H 



+ 0 72 





25 







c e 









2 



+ 7 09 





18 



+ 0.984 







+ 0 47 





23 







a. 



9 



4- 1 71 







3 





1 1 

 1 1 



1.417 





2 j 



+ 0 12 





00 



0 49" 





c H 



14. 



2 











22 



— j.866 





9 



1 41 







9 444 





c« 



9 



3 94 











18 









3 3g 





25 



3 





c'„ 



13 









+ 063 





OU 



~ 40*4 





10 



2 43 



1 



M I 



— 3.633 



2 





6 



4- i!Î! 



1 



1 



— 3.69 



_ 



20 



— 1.619 



1 



9 



- 3!l7 





29 



— 2.099 



1 



c 



10 



— 0.30 



— 



2 



+ 0.40 



— 



24 



+ 0.224 



— 



6 



— 2.06 





30 



— 0.233 



— 



z>. 



11 



_|_ 2 38 





2 



0 40 





1 3 



j ] 





4. 



i - » 





17 







D 



g 



_|_ 2.53 





3 



+ 10'71 





1 6 







g 







24 



+ 3 2 4 





D s 



9 



_|_ 3 91 



1 



1 



7 





33 





1 



g 



+ 4 07 



1 



41 



j 3 377 



2 



D, 



9 



_|_ 4_5o 



1 



1 



+ 8.57 





32 



T ' r ' 

 T ' ' 



2 





+ 5.19 





39 



j 5 4^7 



2 



A 



g 



j 5 5 3 





1 



+ 4 58 





1 N 



T [) ^ 





g 



+ 5 49 





24 



+ 4.0S2 





D. 



g 



-j- 3 66 











1 1 * 



-j- ^.t30 





2 



+ 0 33 





1 2 



+ 2.497 





D- 



4 



1 7j 







+ 3 82 





15 













1 5 







d' 



12 



_|_ 0.86 







0.74 





2 1 



~" 0 696 







+ 0 36 



3 



25 



_ 0 "27 



3 



A 



7 



- LiO 





2 



— 2.38 





30 



— 1.673 



_ 



7 



-312 





. r ;7 



— 1.946 





Ao 



12 



- 0.36 





1 



+ 2.87 



— 



•2:1 



— 1.611 



- 



8 



— 2.11 





;îi 



— 1.740 



— 





5 



q 30 





3 



+ 1 68 





24 









3 g 5 



- 



31 







As 



8 



+ 0.-13 



— 





— 2 09 



- 



17 



+ 0^915 





2 



+ 0.41 



— 



1!» 



+ 0.861 



- 



#1 



11 



+ 0.96 



1 





+ 2 37 





16 



+ 1.368 



1 



20 



+ 2.70 



1 



36 



+ 2.109 



2 



E., 



L4 



+ 4.54 





2 



— 0.32 





21 



+ 3.733 



1 



17 



+ 3.65 





HS 



+ 3.694 



1 



K 



18 



+ 5.10 



1 



4 



+ 6.97 





25 



+ 3.976 



1 



20 



+ 5.44 



1 



45 



+ 4.626 



l 





22 



+ 3.43 



1 



1 



+ 4.27 





47 



+ 3.909 



1 





+ 3.14 



1 



(i!) 



+ 3.689 





1; 



15 



-t- 3.24 





1 



+ 3.43 





36 



+ 2.487 





19 



+ 2.10 





55 



+ 2.343 







11 



— 0.25 





3 



+ 4.06 





44 



+ 1.463 





7 



- 1.84 





51 



+ 1.010 





Ü, 



13 



— 3.20 





1 



— 0.25 





34 



— 1.105 





18 



— 2.52 



1 



52 



— 1.585 



1 





14 



+ 0.68 



i 



2 



+ 0.74 





32 



— 0.398 





11 



- 0.34 



1 



46 



— 0.381 



1 



#8 



14 



+ 0.85 



1 



2 



+ 3.17 





17 



+ 0.068 





19 



+ 0.02 



1 



36 



+ 0.045 



1 



^0 



15 



+ 2.78 





4 



+ 0.47 





22 



+ 1.551 





13 



+ 0.74 





35 



+ 1 .258 







16 



+ 3.35 





3 



+ 1.50 





22 



+ 2.143 





18 



+ 3 35 





4() 



+ 2.686 







16 



+ 1.65 





3 



+ 0.80 





17 



+ 1.497 





12 



+ 2.53 



1 



21) 



+ 1.923 



1 



Lunds Universitets Årsskrift. N. F. Afd. 2. Bd 11. 



3 



