Iv 
CONTENTS 
Tables—Continued. 
16. Differences to adapt table 15 to beginning of each calendar month_ 
17. Differences to adapt table 15 to beginning of each day of month__ 
18. Differences to adapt table 15 to beginning of each hour of day___ 
1OSProductsitor Worm G4 yee ee se iy a RNR ea 
20) -Auementime hactoOrs esac 2 aie 2S Oy ep 
21. Acceleration in epoch of K; due to P,_________________________ 
22. Ratio of increase in amplitude of K,; due to Py_________________ 
23. Acceleration in epoch of S, due to Ky_________________________ 
24. Ratio of increase in amplitude of S, due to Ky_________________ 
254 Acceleration inyiepoch ofeS> duelto iho =a = eae ee 
26. Resultant amplitude 'S, due to Woe 22) 44.) ey ee 
2, Criticallogarithms) for Horm) 24 5 ee pe pene ee 
28. Constituent speed differences (6—a)e"e 145.) 45 Sau) a ee 
29), Klimination factors 2.2222 5-545 22 se oe ee eye ee 
315) Hor constructionrof primary Sten ell saa meee aren anne 
32. Divisors) for primary? stem ei (sum se ee ee 
33. Hor construction ofisecondany stencils sas = aa a ee 
34. Assignment of daily page sums for long-period constituents______ 
35. Products: for Horm 44452 22228 Sea Se se eee 
36) Angle differences for Horm 45 eee a eee 
37. Coast and Geodetic Survey tide-predicting machine No. 2—gen- 
eral. gearsae. 2.25.20. | Ae Oe ee ee 
38. Coast and Geodetic Survey tide-predicting machine No.2—con- 
stituent gears. 2. =. 2s ee = eee 
39) Synodic periodslof i constiGwemisme eee eee eee re eer 
40. Day of common year corresponding to day of month___________ 
41. Values of h in formula h=(1+7?+27 cos x)?___________________ 
42. Values of k in formula k=tan-) —="* 
Hxplanation, of symbols. + 225-2) S350 See ee ee os 
Index. 22202-26224 1g eee ee oe ee ee 
OND OUR OO NO 
ILLUSTRATIONS 
EHeliptic; celestial equator, and moon's orbit=— 222-5 = — a ee 
Tide=producing force 32 3= _- 2 ee 2 ee 
@elestialsphere. 2224 5-224 2652225 52 ee ee 
Longitude relations'.-s..24 2282) _). 2. 2 eae ee 
Hquilibriumitide withymcon on iequators 55a 
. Equilibrium tide with moon at maximum declination-__---_--------_- 
Constituent: tide Curven. i =.=. 32 2 a ee 
wiPhase relationss =o. See ee Ss ee eee 
 Rorm 362: hourly heightses 4-22 222 54 ee 
See trove Crornsuniu@ing Wl Se oe Sn eee te ae 
. Application of"steneil. =... 2. 3 ee ee 
», Rorm. 142 stencil sums. 2220222 = 222 = a ere 
5 Conmjomlieionl Or INoniMby WIENS aa eee oe see Se Sees aS 
wHorm 244° computationy or Vigil e 
. Form 244a, log F and arguments for elimination_-___-_----_-----=- 
Pl Noracn levee ne aaornnks Hos | = ee ese ae 
. Form 452, R, x, and ¢ from analysis and inference, diurnal tides_--_- 
. Form 452, R, «, and ¢ from analysis and inference, semidiurnal tides_ 
iy Porm 245, elimination. = 322-6 = 25. 2) See eee 
1) Horm) 723, currents. harmonic) companisones == eyes en 
. Coast and Geodetic Survey tide-predicting machine_-_-------------- 
‘) Tide-predicting machine, time side |. = Nees ee 
. Tide-predicting machine, recording devices____-------------------- 
/ Nide-predictins: machine} driving; wears ss) =e ee 
. Tide-predicting machine, dial case from height side___-_------------ 
. Tide-predicting machine, dial case from time side_--__-------------- 
. Tide-predicting machine, vertical driving shaft of middle section-_--_-- 
. Tide-predicting machine, forward driving shaft of rear section- - ----- 
}) Tide-predicting machine, rear enG@_= == 5 2 ee ee 
. Tide-predicting machine, details of releasable gear______------------ 
. Tide-predicting machine, details of constituent crank_____---------- 
. Form 444, standard harmonie constants for predictions __-_---------- 
. Form 445, settings for tide-predicting machine__-____--------------- 
. Graphic solution of formulas (470) and (471)__-._.___------------ 
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