TABLE 1 

 Observed Boundary-Layer Data 





y 



"o 



Angle 



u/Uo 



u/Uo 



f-'o 



Angle 



u/£/o 



u/Ua 



f'o 



Angle ui 



Ug 



u/Vo 



C'o 



Angle 



u/V^ 



'0 



Angle 



u, C'u 



station 









netcuiv 



tettabfomethane 







mercury 



letrabromethane 





me 



cuty 



tetrabromettiane 







mercury 







mercury 





inches 



knots 



degrees 



manometer 



manometer 



knots 



degrees 



manom-eter 



manometer 



knots 



degrees man 



Dmeter 



manometer 



knots 



degrees 



manometer 



knots 



degrees 



manometer 



1 



0.125 



4.8 







0.494 



0.488 



10,3 







0.538 



0.534 



10.6 







528 



0.530 



15.3 







0.585 



19.7 







0,567 



: 



0.25 





6 







0.562 



0.574 



10 



4 











583 



0.579 



10 



6 



0. 



563 



0.5G7 



15.3 







0.630 





4 







0,639 



1 



0.50 





8 







0.632 



0.619 



10 



3 











637 



0.635 



10 





0. 



595 



0.601 



15.3 







0.675 





6 







0,660 



1 



0.75 













0.585 



0.583 



10 



4 







0. 



640 



0,632 



10 





0. 



659 



0.659 



15.2 







0.702 





9 







0,711 



1 



1.00 





8 







0.639 



0.633 



10 



2 











660 



0,656 



10 





0. 



691 



0.684 



15.2 







0.721 





8 







0,716 



1 



2.00 





7 







0.668 



0.684 



10 



6 











707 



0,706 



10 









731 



0.736 



15.2 



1 P 



0.765 





7 



1 



0.719 



1 



4.00 





7 







0.688 



0,709 



10 



8 











791 



0.791 



10 









778 



0.779 



15.3 



2 P 



0.796 





8 







0.808 



1 

 1 



7.00 

 10.0 





7 

 7 





 



0.786 

 0.839 



0.803 

 0.855 



10 

 10 



6 

 8 





 





 



725 

 881 



0.729 

 0.881 



10 

 10 







 



831 

 881 



0.830 

 0.882 



15.3 

 15.3 



V. P 



I'ip 



0.857 

 0.940 





8 

 6 





 



0.848 

 0.893 



1 



13.0 





8 



2 P 



0.870 



0.870 



10 













903 



0.905 



10 









943 



0.948 



15.3 



ViP 



0.958 





8 







0.935 



1 



IG.O 





9 



2 P 



0.903 



0.906 



10 













922 



0.924 



10 









960 



0.964 



15.3 



ViP 



0.969 













0.945 



1 



19.0 





8 



2 P 



0.902 



0.897 



10 













977 



0.983 



10 









962 



0.981 



15.2 



1 p 



0.988 





9 







1.004 



1 



24.0 





6 



- 



0.919 



0.914 



10 













999 



1.004 



10 









993 



0.999 



15.3 



1 p 



0.984 





8 







1.005 



II 



0.125 





8 





0.471 



0.544 



10 





1 s 







557 



0.570 



10 



6 



n P 



605 



0.645 



15.3 



1 s 



0.637 





7 



1 P 



0.570 



II 



0.25 





6 





0.559 



0.626 



10 





1 s 







578 



0.596 



10 



6 



ISiP 



609 



0.653 



15.3 



1 s 



0.668 





4 



1 S 



0.658 



II 



0.50 





8 





0.661 



0.694 



10 





1 s 







653 



0.662 



10 



G 



2 P 



657 



0.690 



15.3 



1 s 



0.679 





6 



1 S 



0.664 



II 



0.75 











0.648 



0.683 



10 





1 s 







648 



0.657 



10 



4 



1 P 



732 



0.717 



15.2 



1 s 



0.745 





9 



1 S 



0.706 



II 



1.00 





8 





0.682 



0.716 



10 





1 s 







688 



0.698 



10 



4 



1 P 



758 



0.749 



15,2 



1 s 



0.751 





8 



1 s 



0.756 



II 



2.00 





7 





0.744 



0.770 



10 





1 s 







791 



0.803 



10 



5 



1 P 



759 



0.767 



15,2 



1 s 



0.831 





7 



1 s 



0,759 



II 



4.00 





7 



_ 



0.795 



0.823 



10 





1 s 







831 



0.842 



10 



6 



1 P 



814 



0.797 



15,3 



1 p 



0.846 



19 



8 



1 s 



0,848 



II 



7.00 





7 



- 



0.892 



0.938 



10 





1 s 







700 



0.705 



10 



4 



1 P 



809 



0.840 



15,3 



1 p 



0.869 



19 



8 



1 s 



0,857 



II 



10.0 





7 



- 



0.938 



0.978 



10 





1 s 







912 



0.922 



10 



7 



1 P 



874 



0.867 



15,3 



1 p 



0.932 



19 



6 



1 s 



0,882 



II 



13.0 





8 



_ 



0.924 



0.956 



10 





1 s 







922 



0.935 



10 



4 



1 P 



931 



0.935 



15,3 



1 p 



0.971 



19 



8 



1 s 



0,967 



II 



IG.O 





9 



- 



0.959 



0.981 



10 





1 s 







958 



0.967 



10 



5 



1 P 



928 



0,942 



15.3 



1 p 



0.974 



20 







1 s 



0,956 



II 



18.0 





8 



- 



0.969 



1.003 



10 





1 s 



1 



008 



1.007 



10 



4 



1 P 



972 



0,964 



15.2 



1 p 



0.976 



19 



9 



1 s 



1,032 



III 



0.125 





8 



m P 



.. 



.. 



10 





Vi 







538 



0.543 



10 



6 



l'/4 P 



472 



0,471 



15.3 



1". p 



0.605 



19 



7 



ViP 



0,625 



III 



0.25 





6 



UiP 



0.141 



0.156 



10 





Vi 







545 



0.548 



10 



6 



1«P 



494 



0,492 



15.3 



1'/, p 



0.659 



19 



4 



IMP 



0,656 



III 



0.50 





8 



WP 



0.345 



0.367 



10 





Vi 







594 



0.596 



10 



6 



Vi P 



484 



0.492 



15.3 



1!'. P 



0.682 



19 



6 



I'/IP 



0,685 



III 



0.75 









1'/. p 



0.356 



0.375 



10 





Vi 







612 



0.612 



10 



4 



1'/. P 



548 



0.550 



15.2 



ViP 



0.722 



19 



9 



IMP 



0,700 



III 



1.00 





8 



I'ip 



0.383 



0.422 



10 





Vi 







643 



0.643 



10 



4 



I'S P 



565 



0.567 



15.2 



UiP 



0.756 



19 



8 



IMP 



0,745 



III 



2.00 





7 



114 P 



0.469 



0.492 



10 





Vi 







697 



0.699 



10 



5 



l"o P 



596 



0.591 



15.3 



Vi P 



0.796 



19 



7 



IMP 



0,751 



III 



4.00 





7 



I'/j P 



0.509 



0.541 



10 





Vi 







755 



0.757 



10 



G 



Vi P 



652 



0.G51 



15.3 



ViP 



0.834 



19 



8 



Vi P 



0,834 



III 



7.00 





7 



Vi P 



0.619 



0.649 



10 





Vi 







687 



0.689 



10 



4 



Vi P 



705 



0.709 



15.3 



Vi P 



0.915 



19 



8 



IMP 



0.852 



III 



10.0 





7 



1« P 



0.679 



0.696 



10 





Vi 







853 



0.854 



10 



7 



Vi P 



757 



0.756 



15.3 



Vi P 



0.980 



19 



6 



IMP 



0.862 



111 



13.0 





8 



IMP 



0.665 



0.682 



10 





Vi 







876 



0.878 



10 



4 



Vi P 



819 



0.822 



15.3 



11/4 p 



0.991 



19 



8 



IM P 



0.943 



III 



16.0 





9 



Vi P 



0.684 



0.704 



10 





Vi 







893 



0.894 



10 



5 



Vi P 



823 



0.826 



15.3 



Vi P 



0.990 



20 







IM P 



0.891 



III 



18.0 





8 



I'/JP 



0.692 



0.714 



10 





Vi 







923 



0.926 



10 



4 



H P 



847 



0.851 



15.2 



liip 



0.999 



19 



9 



IM P 



0.972 



III 



18.0 





6 



1'/, p 



0.730 



0.741 



10 





Vi 







944 



0.949 

















, 15 



8 



IMP 



0.978 



V 



0.125 





8 







0.529 



0.436 



10 











524 



0.521 



10.6 



1 



593 



0.520 



15.3 







0.598 



19 



7 







0.637 



V 



0.25 





6 







0.560 



0.476 



10 











589 



0.583 







" 





15.3 







0.674 



19 



4 







0.705 



V 



0.50 





8 







0.731 



0.680 



10 











590 



0.588 



10.6 



1 



658 



0.589 



15,3 







0.685 



19 



6 







0.734 



V 



0.75 













0.713 



0.663 



10 











598 



0.602 



10 





1 D 



704 



0.634 



15,2 







0.717 



19 



9 







0.741 



V 



1.00 





8 







0.708 



0.656 



10 



2 









667 



0.660 



10 





1 D 



708 



0.635 



15,2 



2 D 



0.783 



19 



8 







0.750 



V 



2.00 





7 







0.735 



0.690 



10 











717 



0.714 



10 





3 D 



768 



0.714 



15,2 



2 D 



0.821 



19 



7 



'iO 



0.825 



V 



4.00 





7 







0.729 



0.665 



10 



8 









833 



0.827 



10 





1 D 



815 



0.762 



15,3 



2 D 



0.889 



19 



8 



I'iD 



0.878 



V 



7.00 





7 







0.842 



0.800 



10 











868 



0.864 



10 





1 D 



894 



0,852 



15.3 



2 D 



0.984 



19 



8 



1 D 



0.920 



V 



10.0 





7 







0.904 



0.8GO 



10 



8 









937 



0.882 



10 





2 D 



933 



0,901 



15.3 



2 D 



0.966 



19 



6 



1 



1.017 



V 



13.0 





8 







0.885 



,0.845 



10 











967 



0.938 



10 





1 D 



981 



0.946 



15.3 



2 



1.010 



19 



8 



1 D 



1.022 



V 



16.0 





9 







0.876 



0.830 



10 











981 



0.938 



10 





1 D 



938 



0.952 



15.3 



2.5D 



0.979 



20 







1 D 



1,022 



V 



19,0 





8 







0.918 



0,879 



10 











958 



0.938 



10 





1 D 



957 



0.961 



15.2 



2.50 



0.991 



19 



9 



1 D 



1,017 



V 



24.0 





6 







0.810 



0.791 



10 



3 









989 



0.974 



10 





2 



932 



0.961 



15.3 



2.5 D 



0.941 



19 



8 



1 D 



1,009 



VI 



0.125 







. 





. 









•; 





10 



6 







279 



0.376 













•. 



VI 



0.25 































•« 



" 



















VI 



0.50 



























10.6 







192 



0.356 



















VI 



0.75 



























10 









225 



0.369 



















VI 



1.00 



























10 









144 



0.317 















' 



' 



VI 



2.00 



























10 









230 



0.382 



15.2 







0.250 











VI 



4.00 



























10 









153 



0.354 







*• 



19,8 







0,151 



VI 



7.00 







' 





' 











' 



' 





10 









225 



0.393 















VI 



10.0 



4.7 







0.276 



0.131 



10,8 







0.694 



0.613 



10 





6 S 



417 



0.502 















VI 



13.0 





8 







0.636 



0.609 



10.7 







0.507 



0.508 



10 





4!'; S 



509 



0.580 



15.3 







0.333 



19,8 







0,270 



VI 



16.0 





9 







0.703 



0.703 



10.7 







0.770 



0.770 



10 





1!4S 



720 



0.762 



15.3 







0.707 



20,0 







0.643 



VI 



19.0 





8 







0.787 



0.805 



10.7 







0.960 



0.966 



10 





i^S 



918 



0.912 



15.2 







0.948 



19,9 







0.983 



VI 



24.0 





6 







0.724 



0.722 



10.3 







1.024 



1.026 



10 









946 



0.946 



15.3 







0.985 



19,8 







1.084 



•■Ns 



ative ma 



nometer deflectio 











































































