HARMONIC ANALYSIS AND PREDICTION OF TIDES 
189 
Table 12.—Log factor F corresponding to every tenth of a degree of I—Con. 
Pa 23.7° | Diff.| 23.8° | Diff. | 23.9° | Diff.| 24.0° | Diff. | 24.1° | Dift.| 24.2° | Diff, 
Constituent Livks 
ie Binet 9.9912 | —14 | 9.9898 | —14 | 9.9884 | —14 | 9.9870 | —13 | 9.9857 | —14 | 9.9843 | —13 
ieee ed 9.9963 | —9 | 9.9954 | —10 | 9.9944 | —10 | 9.9934 | —10 | 9.9924 | —9 | 9.9915 | —10 
Kgs ASRS a 9.9998 | —25 | 9.9973 | —25 | 9.9948 | —24 | 9.9924 | —25 | 9.9899 | —25 | 9.9874 | —24 
M>*, No, 2N____| 9.9991 | +3 | 9.9994 | +3 | 9.9997] +3 | 0.0000} +3] 0.0003 | +4 | 0.0007] +3 
1 Ife ee Oe 9.9986 | +5 | 9.9991 +4 | 9.9995 +5 | 0.0000 +5 | 0.0005 +5 | 0.0010 +5 
M;, MN.-_.--- 9.9981 | +6 | 9.9987} +7 | 9.9994 | +6 | ¢.c000) +7] 0.0007] +6 | 0.0013 | +7 
ie oe 9.9972 | +9 | 9.9981 | +10 | 9.9991 | +10 | 0.0001 | +9 | 0.0010 | +10 | 0.0020 | +10 
Maye) RMON k 9.9962 | +13 | 9.9975 | +13 | 9.9988 | +13 | 0.0001 | +12 | 0.0013 | +13 | 0.0026 | +13 
01, Q1, 2Q,p:_--| 9.9942 | —15 | 9.9927 | —16 | 0.9911 | —15 | 9.9896 | —16 | 9.9880 | —15 | 9.9865 | —15 
On Tawa 9.9846 | —53 | 9.9793 | —53 | 9.9740 | —53 | 9.9687 | —53 | 9.9634 | —52 | 9.9582 | —52 
NK) SORE Ba 9.9954 | —7 | 9.9947 | —6 | 9.9941 | —7 | 9.9934 | —7 | 9.9927] —6 | 9.9921 | —6 
Div Konaee 17 9.9944 | —3 | 9.9941 | —4 | 9.9937 | —3]| 9.9934 | —3 | 9.9931 | —3 | 9.9928] —3 
cee ee 9.9894 | —34 | 9.9860 | —35 | 9.9825 | —34 | 9.9791 | —34 | 9.9757 | —33 | 9.9724 | —34 
NG ee 9.9975 | +11 | 9.9986 | +11 | 9.9997 | +12 | 0.0009 | +11 | 0.0020 | +11 | 0.0031 | +12 
| 
Se I 24.3° | Diff.| 24.4° | Diff. | 24.5° | Dift.| 24.6° | Diff.! 24.7° | Dift.| 24.8° | Diff. 
alee 
9.9816 | —13 | 9.9803 | —13 | 9.9790 | —13 | 9.9777 | —13 | 9.9764 | —13 
9.9896 | —9 | 9.9887 | —10 | 9.9877 | — 9 | 9.9868 | —10 | 9.9858 | —9 
9.9825 | —25 | 9.9800 | —24 | 9.9776 | —25 | 9.9751 | —25 | 9.9726 | —25 
0.0013 | +3 | 0.0016 | +4 | 0.0020] +3 | 0.0023} +3 | 0.0028 | +4 
0.0020 | +5 | 0.0025 | +5 | 0.0030] +5 | 0.0035 | +5 | 0.0040 | +5 
0.0026 | +7 | 0.0033 | +6 | 0.0039] +7 0.0046 | +7 | 0.0053 | +6 
0.0039 | +10 | 0.0049 | +10 | 0.0059 | +10 | 0.0069 | +10 | 0.0079 | +10 
0.0053 | +13 | 0.0066 | +13 | 0.0079 | +13 | 0.0092 | +13 | 0.0105 | +14 
9.9835 | —15 | 9.9820 | —15 | 9.9805 | —15 | 9.9790 | —15 | 9.9775 | —15 
9.9478 | —52 | 9.9426 | —51 | 9.9375 | —51 | 9.9324 | —51 | 9.9273 | —51 
IVE SON A 9.9915 | —6 | 9.9909 | —6 | 9.9903 | —6 | 9.9897} —6 | 9.9891 | —6 | 9.9885 | —6 
Ne eS 9.9925 | —3 | 9.9922 | —3 | 9.9919 | —3| 9.9916 | —2| 9.9914) —3 | 9.9911) —2 
Bp Uae oh 9.9690 | —34 | 9.9656 | —33 | 9.9623 | —33 | 9.9590 | —33 | 9.9557 | —33 | 9.9524 | —33 
Mine Seni a 0.0043 | +11 | 0.0054 | +12 | 0.0066 | +11 | 0.0077 | +12 | 0.0089 | +12 | 0.0101 | +11 
“ar if 24.9° | Diff.| 25.0° | Diff. 25.1° | Dift.| 25.2° | Diff. | 25.3° | Diff.| 25.4° | Diff. 
even eas teas 
eer anatio tt 9.9751 | —13 | 9.9738 | —12 | 9.9726 | —13 | 9.9713 | —12 | 9.9701 | —13 | 9.9688 | —12 
Ke kris 2 9.9849 | —9 | 9.9840 | —9 | 9.9831 | —9 | 9.9822 | —10 | 9.9812 | —9 | 9.9803 | —9 
oe oe wae 9.9701 | —24 | 9.9677 | —25 | 9.9652 | —24 | 9.9628 | —25 | 9.9603 | —24 | 9.9579 | —25 
M>*, No, 2N___| 0.0030 | +3 | 0.0033 | +3 | 0.0036 | +4 | 0.0040 | +3 | 0.0043 | +4 | 0.0047] +3 
NM; OOS Be 0.0045 | +5 | 0.0050 | +5 | 0.0055 | +5 | 0.0060] +5 | 0.0065} +5 | 0.0070 | +5 
Mi, MN______- 0.0059 | +7 | 0.0066 | +7 | 0.0073 | +7 | 0.0080] +6 | 0.0086 | +7 | 0.0093 | +7 
Mie b RERO 0d. 0.0089 | +10 | 0.0099 | +10 | 0.0109 | +10 | 0.0119 | +11 | 0.0130 | +10 | 0.0140 | +10 
Mig: DRA eb A 0.0119 | +13 | 0.0132 | +14 | 0.0146 | +13 | 0.0159 | +14 | 0.0173 | +13 | 0.0186 | +14 
01, Qi, 2Q, pi---| 9.9760 | —14 | 9.9746 | —15 | 9.9731 | —14 | 9.9717 | —15 | 9.9702 | —14 | 9.9688 | —14 
OXON age ee 9.9222 | —51 | 9.9171 | —50 | 9.9121 | —50 | 9.9071 | —50 | 9.9021 | —50 | 9.8971 | —49 
EKER 2 9.9879 | —6 | 9.9873 | —6 | 9.9867] —6 | 9.9861 | —5 | 9.9856} —6 | 9.9850| —6 
ONE KMAeE 8 1S. 9.9909 | —3 | 9.9906 | —2| 9.9904 | —3 | 9.9901) —2| 9.9899} —2 | 9.9897| —3 
Mif 2 ee ey 9.9491 | —32 | 9.9459 | —33 | 9.9426 | —32 | 9.9394 | —32 | 9.9362 | —32 | 9.9330 | —32 
Vir Seeeeh 2b 38! 0.0112 | +12 | 0.0124 | +12 | 0.0136 | +12 | 0.0148 | +12 | 0.0160 | +12 | 0.0172 | +13 
*Log F of do, u2, v2, MS, 28M, and MSf are each equal to log F of Mz. 
Log F of Pi, Ro, S:, S2, S4, Ss, T2, Sa, and Ssa are each zero. 
For log F of L2 and M; see Table 13. 
