316 INDEX 
J Page 
Page| Predicting machine. (See Tide- 
Juliancalenda see 4 predicting machine.) 
Prediction of tidal currents_______ 147 
K iPredictionyol tides=as. == aaa 123 
iGvanduko tides: =. ssss2ee> see ne 44 | Principal lunar constituents_______ 21 
Kelvin, Word. 22-235. 02 5 1, 126| Principal solar constituents_______ 39 
L R 
1 Gre mei an mC oO ete Clan Ty 2 1 
HEE REET WOE he tase” ¢ | Record of observations___________ 
Latitude factors______- 17, 24, 154, 168] Reduction factor _____ 25, 111, 156, 186 
bength of series. = 22 2_ 2-2) 2a 51 
Lesser lunar constituents_________ 35 S 
Lesser solar constituents_________ 40 
Lesser tide-producing force____- 
Wuonentudes = esse te et ns 
Longitude, lunar and solar ele- 
MmentS- = a. sae ee se ee 162, 170 
Long-period constituents___ 16, 87, 302 
] FES 10 (aaa eg es oO 43, 156, 177, 192 
Lunar constituents____________ Zila 
MGuNarXC a = yer ts oe aoe 3 
ena ears hy @ nes eee ee ee 4 
unar intersections =a = ses 6 
MIR TOO Cee se ee ee eee 6, 8 
bhunisolar tidesss-=—- — 4-56 s sno 44 
M 
Mean constituent coefficient ______ 24 
Mean Jongitude®= 22210! Lo vena 7 
Meteorological tides_____________ 46 
Month, several kinds___________- 4 
Monthly sea-level analysis_____ 98, 114 
Moon’s motion, equations________ 19 
Moon’sinodest! _ 1eltaiahess Len 6, 8 
Moon’s parallax, 4th power_______ 34 
IM, =tide.3 22-2288 41, 156, 179, 192 
N 
Node; Juana. 5-0 ess gn ois jan pees 6,8 
INodeltactor 22. 5 ay eee pene 25 
Compound tideste es 252 ae 47 
Constituent Kaas 2222 --22--- 45 
Constituent Kes 222 aeee 46 
Constituent Epes. oe ee 44 
Constituent Migjse5.—2 3252 43 
Lesser tide-producing force___ 36 
Predictions a2 == aes 124 
BSN 0) VEE) is a a SS S| PN = ea 199 
INodical montha== 35542. =24 a 4 
O 
Obliquity factor. =.= 5 _- 254e2 4=22 24 
Obliquity of eclip ic___-_._______ 6 
Obliquity of moon’s orbit_________ 6 
Observational data______________ 50 
Overtides cn 25 oe cp Ai by heh singles ted 47 
P 
Period of cons/ituent____________ 3 
Periods, astronomical____________ 163 
Phase lap. <2. 99) tonne te once 49, 75 
Phasejoficonstituent_ 20 5-2-2) __ 
Poor, Charles Lane_____________- 1 
Potential. foe Pee ee ae 30 
Secondary stencils________ 
Semidiurnal constituents_________ 
Settings for tide-predicting ma- 
Chines SUI Cl Bee ae 145, 306 
Shallow-water constituents____ 46, 167 
Shidy, -L..P..--.-.--..--- oe 53 
Siderealday .--=--. =) 23eniiae 3 
Sidereal hour, month, year_______ 4 
Solar day__..=- . 299 3. Le 3 
Solar factor... 95) sao ae 40 
Solar hour)! _.-./20.8. Sees 4 
Solar tides... ==... _\ 39 
force. -+=-.se<+2+=2-- eee 26, 37 
Species of constituent____________ 16 
Speed of constituent_2 25 saa ——— 3, 23 
Stationary wave_.-------=-as0 2 
Stencil sums-=-==-----= === eee 107 
Stencis24 «222-2208 53, 106, 158, 268 
Summarized formulas: 
Equilibrium tide__-__-___-2__ 33 
Lesser tide-producing force___ 36 
Principal tide-producing force. 26 
Summation for analysis__________ 52 
Surface of equilibrium_________ 30, 32 
Symbols used in book____________ 311 
Synodical month: ===") = eae 4 
Synodic periods of constituents___ 161, 
309 
T 
Talbles= = === - == 250i 0s Mahe See 162 
ixplanation= == -- =. 25= === 153 
Terdiurnal constituents__________ 34 
Thomson; ‘Sir Williams a 1, 126 
dhidalvcurrentse a2 == 118, 147 
Tidalsmovement===2 "==. ===as 2 
Tide-predicting machine__________ 126 
Adyustmentsaa=. ==) =a 139 
Automatie stopping device___ 135 
Base eet. ee 127 
Constituent cranks__-______- 130 
Constituent dialss=) =] === 131 
Constituent pulleys__________ 132 
Constituent sliding frames____ 131 
Datum of heights___________ 141 
Day dial_2..---._-. sae 128 
Dial hour. ==. .2.. 22 ee esaee 128 
IDimensions==5 2 === ae 127 
Doubling gears= 23] ee 132 
Formsiuseds 2422 ==") eee 4= 143 
Gear speeds... 2.2224 5a ee 129 
Gearing see 128, 160, 307 
Graphiscales 2222229 =e 137 
