■^ 



f, = 0.054 Hz 



, . 1 . 



fj = 0.064 Hz 



. . 1 , 



1 1 1 1 1 1 , 1 1 1 . i 



f^ = 0.074 Hz 



, , , . 



' 1 ' ' 1 ' ' 1 ' ' 1 ' ' 



f, = 0.083 Hz 



w o 



743 Cases 



- 



685 Cases . 



- 



960 Coses _ 



- 



1001 Coses : 



D 



- 





- 





- 



- 



- 



- 



o 









1 





1 







^s 2 



^ nfl 



1 ^ 





- 



. 1 . ..nllll Ik 





. , . J k — 





, jIl , ^ 



= 0.093 Hz 

 1036 Coses 



-++++ 



= 0.103 Hz 

 1022 Coses 



-K++ 



= 0.113 Hz 

 1 17 Coses 



-K-H- 



fj = 0.123 Hz 

 987 Coses 



f, = 0.132 Hz 

 902 Coses 



f,j, = 0.142 Hz 

 776 Cases 



f,, = 0.152 Hz 

 893 Coses 



f,j = 0.162 Hz 

 806 Coses 



-H-<-+ 



-+-H+ 



f ,j = 0.171 Hz 

 763 Cases 



f,^ = 0.181 Hz :; 



723 Coses ■ 



-H-Wf. 



= 0.191 Hz 

 634 Coses 



f,5 = 0.201 Hz 

 712 Coses 



+++- 



+++-I. 



f,, = 0.210 Hz 

 666 Cases 



= 0.220 Hz 

 636 Cases 



f,5 = 0.230 Hz 

 601 Cases 



fjj, = 0.240 Hz 

 530 Coses 



fj, = 0.250 Hz :: 



460 Coses 



f„ = 0.259 Hz 

 418 Coses 



f„ = 0.269 Hz 

 353 Coses 



fj, = 0.279 Hz 

 272 Cos es 



fj5 = 0.289 Hz 

 223 Coses 



= 0.298 Hz 

 202 Coses 



fj, = 0.308 Hz 

 168 Coses 



90 60 30 0-30 -60 -90 



e, (deg) 



Figure 26. Frequency-by- frequency distributions of peak direction 

 using only unimodal data 



90 



