it doth flowe by putting to euery floudde and ebbe .24 minuts and to .2 flouds and .2 ebbes putting to .48 minuts Now furthermore the Seamen vse to make their accompt by this meanes but it is all one they do allow for euery day of the age of the Moone one point and .3 minuts for a point of the compasse conteineth 45. minuts that is .3 quarters of an houre Then they put .3 minuts to .45 minuts which maketh .48 minuts the sayd .3 minuts be the .15 part of a point and from the chaunge to the full is .15 days so that the halfe compasse being .16 pointes they breake the odde point into .15 partes and that commeth to .3 minuts so that the alteration of the tides for euery .24 houres be .48 minuts or the .4 fifth parts of an houre Wherfore there shall follow a table of tides about certain places of this realme for euery Moone conteineth .29 dayes .12 hours .44 minutes from chaunge to chaunge the whole contents of the houres of the Moone be .708 houres and .44 minuts And there is in euery yeare .12 changes of the Moone and the yeare conteineth .365 days .5 houres .55 minuts .13 seconds Yet some do affirme to be adde .6 houres but there lacketh .4 minuts .47 seconds in the tropicall yeare Likewise in the yeare be .12 moneths agreable to the .12 Moones the 12. Moones conteine but .354 dayes so that there be .11 dais more in the yeare than there be in the .12 moones The yeare also is deuided into .12 moneths which mooneths haue taken their names at the will and pleasure of menne as first Ianuary was so called of Ianus bycause of .2 heades for the month of Ianuary beholdeth the end of the yeare past and the beginning of the yeare to come February tooke his name of certaine romaine sacrifices called Februa March is so called of Mars for Romulus so named it after his father Aprill cōmes of Aperio bycause that then the earth is opened Maye of Maia the mother of Mercury Iune so called by preparing to the warre Iuly of Iulius Cesar and Augustus of Augustus Cesar for in that month he entred the cōsulship then the rest of the months toke their names of their numbre frō march Now these .12 months which maketh the yeare the Sunne dothe passe or go through the Zodiack called the .12 signes which is the occasion of the yeare for this is to be noted that the sunne as I saide before doth go by his naturall mouing in .365 days .5 houres .55 minuts .13 seconds through the Zodiack conteining .360 degrées his course being againste the 24. houres going from the Weast into the East against the course of primum mobile or first mouer being moued by the mighty prouidence of God which maketh the .24 houres and so dothe all the seuen lights or planets except that it be in their retrogratiō but the Sunne and the Moone be neuer retrograt as the other .5 planets or lights be And this is to be noted that the Moone goeth faster thā the Sunne for she goeth through the whole Zodiack in .27 dayes and .8 houres Now in that same time the sunne is remoued by his natural mouing from that place of the Zodiack neare .27 degrees and then bycause that the Moone hath not found the Sunne ther it is .2 dayes foure houres foure and forty minuts more before that the Moone ouertaketh the Sunne againe so by that meanes it is .29 dayes twelue houres and .44 minuts betwéene the chaunge of the Moone and the next chaunge one Moone with an other thorowe the yeare although that the Moone may chaunge sometime in lesse time and sometime in longer time that is by the meanes of the .3 motions of the Moone that is to say hir swift motion and hir midle motion and hir slow motion whiche groweth by the meanes of the moones Auge or opposition thereof The Moone being in Auge goeth but little more than .12 degrees in .24 hours And in the opposition of Auge néere .15 degrees in .24 hours and in hir middle or equall motion .13 degrées .12 minuts So this is the occasion why sometime the Moone may chaunge sooner or be detracted longer than the time of .29 dayes .12 houres and 44. minutes This point of Auge is mouable and doth passe thorough the Zodiack in the time of .19 yeare and it causeth sometime the full of the Moone to happen sooner and later In like manner also the quarters of the Moone with al the other aspects that the Moone hath with the Sunne or any other of the planets according to the moones motion In like maner by the meanes of the .3 motions of the Moone sometime the Moone goeth more thā one point and .3 minuts in .24 hours and sometimes lesse than one point and .3 minuts as this for example the Moone being in hir slow motiō goeth but little more than .12 degrées in .24 hours and then the Sunne in that time doth go one degree and then is there but .11 degrees betwéene the Sunne and the Moone that is but .44 minuts So that the Moone is not one point in .24 houres from the sunne But being in hir swift motion she goeth néere .15 degrees in .24 houres and the Sunne goeth one degree in that time so that there is .14 degrees in .24 houres betwéene the Moone and the Sunne that is .56 minuts which is a pointe and .11 minuts .23 But notwithstāding I would not wish the common Marriners to trouble themselues with these matters but to followe their accustomed order to allowe for euery day of the age of the Moone one pointe and .3 minuts c. And thus muche haue I said of the Moones motion for that some Sea men will take vpon them to correct the Almanacks as touching the chaunge and quarters of the Moone holding this opinion that euery Moone ought to be equal in the number of the dayes and houres and the full moones to be iust the halfe contents And the quarters in like manner the iust .4 parte in days and hours so that some of them will take vpon them to tel by the rule of the epact the true houre of the change quarters and full of the Moone Wherein they are notably deceiued Againe sometime in the yeare you shall sée the Moone rarer thā at some other time as this for example from Ianuary to Iune you shall sée the Moone within .24 houres after the chaunge bycause she hath North declination of the Sunne and maketh a bigger arche thā the Sunne From Iuly to December you shall not sée the Moone .3 dayes after the change bicause hir declination is to the South part of the Sunne but you may see hir in .24 houres before hir chaunge Now the Sea men do imagin a prime day which is the halfe quarter of the Moone that is when the Moone is thre days and .8 houres old the Moone

being then .4 points to the Eastward of the Sunne whiche is 3. houres the same rule may they in like case obserue when the Moone is paste the full .3 days and .18 houres and also in the middes of the quarters Here followeth a table of Tides FIrst the Moone South or North on Landes ende full Sea. The Moone South and by East at the Gore ende full Sea. The Moone South southwest betwéene holy Iland and Tinemouth full Sea. It floweth betwéene Tinemouth and Flambrough head Southwest and Northeast Moone It floweth betwéene Flambrough head and Bridlington in the bay a South west and by West Moone The Moone in the West Southwest betwéene Bridlington and Laurenas full Sea. It floweth betwéene Laurenas and Cromer all along the well an East and West Moone It floweth betwéene Cromer and Yarmouth rode to Laystow North rode a Southeast Moone It floweth betwéene Laistowe rode and Orfordenas a Southeast and by South Moone It floweth betweene Orford and Orewel wands a South Southeast Moone It floweth betwéene the Nas the Ware head of Colne a South and by East Moone It floweth at the Spittes and at the Sheue and al alongst the Swinne a South Moone At the West end of the Norre a Southe and by West Moone full Sea. It floweth at Grauesend a South Southwest Moone It floweth at London Bridge a Southwest Moone It floweth at the North forlande a South Southeast Moone so alongst the coast till you come to Bechy And in the ofton from the North forland to the South forland it runneth halfe tide And frō the South forland to the Nas the tide runneth halfe tyde halfe quarter And from the Nas to the Fairely it runneth halfe tide and from Fairely to Beche it runneth quarter tide vnder other It floweth to the Weastward of Beche a kenning a Southeast and by South Moone It floweth at Portesmouth a Southe and by East Moone It floweth at S. Elens a South Southeast Moone It floweth on the Sea side of the Iland a Southeast and by South Moone and so on the Lande and at the Needles and runneth quarter tide in the oftonne It floweth at Poole in the hauen a Southeast Moone It floweth at Waymouth an East and West Moone It floweth at Portland a Southeast Moone It floweth from the Weaste parte of Portlande till you come vntoo Plymmouth an East and Weast Moone It floweth on the shoare from Plymmouth to the Lizard a West and by Southe Moone And in the oftonne a Southeast Moone It floweth at Mountes baye an East and Weaste Moone It floweth at Selly a West and by South Moone It floweth at the Landes ende of Goolfe a West Southwest Moone It floweth all alongst the coast vp to Bristowe and the coast of Ireland from Waterford to Kinsale a West and by South Moone Furthermore it floweth for the most part from the poll head of Burdeaux all alongst the coast of Biskey Galiza Portingale till you come to the straightes of Maliga a Southwest and Northeast Moone It floweth at Flushing a Southweast and by Southe Moone It floweth at Anwerp an East and west Moone It floweth all alongest the coast of Flaunders from the Wyldings to Calys a Southe and by East Moone and so runneth halfe a tide vnder the other Nowe heere is one speciall thyng too bée noted and that is thys it floweth one poynte of the compasse more in the Spring streames than it doothe in any of the quarters of the Moone so that it be a riuer where there is any indrafte hauing distaunce from the Sea when there is neyther rage of wyndes nor anye cause eyther too hinder or further the sayde effect As for example thus it floweth at Grauesend at the chaunge of the Moone or full a Southe Southwest Moone But in any of the quarters of the Moone it skante floweth a Southe and by West Moone and this is generally for euer The fourth Chapter treateth of the Sunne moones course in the Zodiack and hovv you shall knovv vvhat houres the Moone shall rise and set at and at what poynte of the compasse vvyth other necessarye thynges FVrthermore the Sunne by hys naturall moouing thoroughe the twelue Signes in the Zodiack in the yeare dothe cause the heigth and lowenesse of his declination whiche is necessarie for the Seafaring men to knowe in whiche declination they do take from equinoctiall to equinoctiall and this is to be noted that as the Sunne hathe declination so in like manner hathe the Moone for by hir declination and the Sunne is knowen the tyme of hir shyning or abiding aboue our horizon The Sunne or Moone in the firste minute of Aries do rise East and set West and shyne .12 houres In the first minute of Taurus they rise néere the Easte Northeast and set néere the West Northwest and shyne .14 houres In the signe of Gemini they rise neere the Northeast and by East and they set néere the Northwest and by West and shyne .16 houres In the signe of Cancer the firste minute they make their greatest declination to the Northwards and they rise neer the Northeast and set neere the Northweast and shyne néere .17 houres In the fyrste minute of Leo discending towardes the equinoctiall as they dyd in Gemini And in the signe of Virgo as they dyd in Taurus And in the firste minute of Libra equinoctiall beginning South declination as in Aries And in the fyrste minute of Scorpio they rise néere the Easte Southeast and sette néere the Weast Southweast and shyne .10 houres In the fyrste minute of Sagittarius they rise neere the Southeast and by East and set néere the Southwest and by weast and shyne .8 houres In the fyrste minute of Capricornus they haue their greatest declinatiō to the South and begin to returne to the equinoctiall rising neere the Southeast and setting néere the Southwest and shyne more than .7 houres In the firste minute of Aquarius as in Sagittarius In the firste minuts of Pisces as in Scorpio Nowe by this rule you may knowe the rising and setting of the Moone for euer as thus I haue shewed you before in the shifting of the Sunne and Moone that for euery day of the age of the Moone the Moone goeth Eastward one point .3 minuts in .2 days .2 points and .6 minuts c. Nowe when you list to knowe the very houre and time of hir rising Looke howe many dayes the Moone is olde then put so many points and so many .3 minutes and looke what it amounteth vnto Which for your better vnderstanding I will shew by example and first of the Moones being South by euery day of the age of the Moone The Moone being one daye olde is South at .12 of the clocke .48 minutes The Moone being .2 dayes olde is South at one of the clocke .36 minuts in the after noone Three days old South at 2. of the clock .24 minuts .4 days olde at .3 of the clock .12

is very good for them that are Masters or Pylotes of shippes to note when they doe fall with any lande where the Compasse is varied to make a remembrance in a booke howe many poyntes and degrees the Cōpasse is varied in euery place where they come vnto which will be a great helpe for them to finde that place agayne And to finde the variation it is declared in the 6. Chapter And héere I leaue to trouble thée any further for this time but shortly after this looke for two other workes of myne the one called The shoting in great Ordinance an other named A Treasure for Trauellers which two Bookes will be profitable I trust for all men If these my labours may profite my Countrey then haue I my desire And thus I bid thee moste hartily farewell 8. Capitall or head pointes 8. Inferior pointes or winds 16. by pointes or windes Thenames of the .32 pointes of the cōpa●se The contents of the Equinoctiall circle 360. degres one point of the cōpasse contayneth 11. degrees and a quarter The .32 pointes brought into .24 houres The cause why that it was called the Pryme or Golden number To knowe howe many the Epact is The pryme is the time of .19 yeres To knowe the age of the Moone by the number of the Epact To knowe the alteration of the ●ides in .24 houres An ensample for the full Sea vppon the ●●nds end ▪ for euery day of the age of the Moone To shift the Sunne and Moone by the points of the compasse The contente of the numbre of dayes and houres in one moone the houres in euery mone be .708.44 minuts The contente of a year is .365 dayes .5 hours .55 Minuts How the mooneths tooke their names The Zodiack conteyneth .360 degrees The moouing of .24 houres The tyme that the Moone goeth thorow the .12 signes The .3 motions of the Moone Of Auge The cause why the Moone chaungeth rather or later The mone goeth in .24 hours somtimes more degrees and sometime fewer degrees The moue is not one point asunder from the Sunne in .24 houres The mone is in .24 houres a point and .11 minuts asunder frō the Sunne Error of Marriners It will now a point of the compasse more in the spring tides than in the neap tides in a Riuer that hath any distance vnto the Sea. To know how long the Mone shineth To knowe what houre or point the Moone ryseth or setteth To knowe what houre the Moone is South for euery day of the age of the Moone Of the chaunge Of the full Moone Quarter of the Moon Ensample of the moones rysing setting The Mone hath latitude You cannot know what a clock it is by the compasse the Sun being in the north signes Error of the shadow of the Moon● The Equinoctiall dyals be very good As touching the length and shortnesse of the day and night Euery person cannot calculate the Sunnes declination Two times in the yeare the Sunne hath no declination 1573. How to obserue the sun To take the heigth of the Sunne with the crosse staffe The cause why the crosse staffe is best to take the heigth of the Sun vnto 50 degrees To take the heigth of the Sun with the Astrolobe Howe to correct your Astrolobe if it dothe nor hang vpright The Astrolobe is best to take the heigth of the Sunne at .60.70 or .80 degrees in heigth How to preserue your eyes when you touch the Sunne with the crosse staffe and haue no glasses The diameter of the Sunne is 30. or .31 minuts Some error in the crosse staffe and how to reforme it To get the true Meridian vpon the Land. To knowe the true Meridian at the Sea and also if your compas be varied and to know how much they be varied To find the variation of the compas in the night by the Starres but not by the Moone ▪ Medell not with your compasse al though it be varied To saile by the compas that is varied As touching Longitude to be found by the Northeasting or Northwesting of the compasse The greatest declination of the Sunne Equinoctiall of Autumne The greatest declination to the South The yeare is compared vnto a ring or an adder biting his tayle The heigth of the Sun being taken and knowē then how to handle the declinatiō to know the heigth of the pole Things to be noted as touching the taking of the altitude of the pole A thing to be noted Altitude or Latitude is all one question in effect Being vnder the Equinoctiall you haue neither Latitude nor altitude for that the Equinoctiall is your Zenith and the Poles your Horizon Of your zenith being betweene the Equinoctiall and the Sunne An ensāple An ensāple where the pole is .10 degrees aboue the Horizon An ensāple To take the Sun to the Northwardes you being betweene the south Pole and the Equinoctiall An ensāple by taking the South pole 41. degrees aboue the Horizon An ensāple by taking the north pole 60. degrees aboue the Horizon A thing to be noted in the handling of the Sūnes declination Howe to know whiche of the .2 poles be vnder the horizon The cause why english mē haue not traueled far beyonde the Equinoctiall An vntemperat place for extreme heate Temperate clymate Of being vnder either of the poles Of taking the heigth of the sun due north at the lowest A thing worthy to be noted as touching the sunnes declination A thing to be noted of the pole and the Equinoctiall the Zenith and the Horizon The Sun taken due North at .6 degrees Of viages for discouery to the Northwards eyther to the Eastward by Noua Zemla or to the West ward by cape de Paramantia Of temperatenesse the pole being raysed 80. degrees The length of the paralele at .80 degrees is but .1250 english leagues How necessary it is for a Seafaring man to know the lēgth of the day Vnder the Equinoctial the day is always .12 houres lōg The pole 16. degrees 44. minuts the day .13 houres long when it is at the lōgest ▪ The pole 30. degrees 48. minuts the longest day .14 houres lōg The pole 41. degrees 23. minutes the longest day .15 houres lōg The pole raised .49 deg 1. mi. then the longest day is 16. houres long The pole raised .54 deg 30. mi. then the longest daye is 17. houres long The pole raysed .58 deg 27. mi. the longest day is .18 houres long The pole raysed .61 deg 18. mi. the longest day is .19 houres long The Pole 63. deg 2. mi. the longest day .20 hours long The pole raysed .64 degrees .49 minutes the longest day 11. houres long The pole 65. degrees the longest day .22 houres lōg The pole 66. degrees 20. minutes the longest day .23 houres lōg The pole 66. degrees 32. minutes then the Sun shall not set vnto them The Sun clean aboue the Horizon due North and not to appeare aboue the Horizon South at noone To knowe the length of the

pointes containe .24 houres that is to say one point containeth .3 quarters of an hour .45 minutes and .2 pointes one houre and a halfe .4 pointes .3 houres 8. poyntes .6 houres .12 poyntes .9 houres .16 poyntes .12 houres and so to the rest of the poyntes And euery houre contayneth .60 minutes and euery halfe houre .30 minutes and euery quarter of an houre .15 minutes and after that rate .45 minutes maketh thrée quarters of an houre ¶ The second Chapter or rule treateth of the Golden number or Prime shewing the Epacte and by the Epacte to knowe the Age of the Moone IT is necessary and conuenient for the Seafaring men to knowe the Prime or Golden number for by the Golden number is knowne the Epacte and the Epacte sheweth the age of the Moone or chaunge day within .12 houres vnder or ouer and by the age of the Moone you may know at what a clocke it doth flowe in any place that you doe knowe what Moone doth make a full Sea therefore it is méete too know the Epacte and that is knowne by the Pryme or Golden number The cause why it was called the Golden number was bycause it was sent out of Egypte in letters of golde too the Romaines or Citie of Rome The cause why that it is called the Pryme was for that it was the first order that the Moones course was known by and it is thus knowne Adde one to the yeare of our Lord that you would knowe the Golden number or Pryme of then deuide the number by .19 the remainer is the Pryme and multiply that by .11 and looke what the number commeth vnto deuide that by .30 the remayner is the Epact Then when you haue once the Epact adde .11 to your Epact for euery yere more and looke what that commeth to that is your Epact and if it do passe .30 put that away and keepe the remainer for your Epact And thus this rule will serue for euer sauing when the Pryme beginneth at one for then the Epacte is .11 and then doe as aforesayde as you may perceyue by this table héere following ¶ The Table of Pryme and Epacte for .19 yeares and vvhen those .19 yeares be ended then beginne againe and so it will serue for euer c. The yere of the Lorde Pryme Epact 1574 17 7 1575 18 18 1576 19 29 1577 1 11 1578 2 22 1579 3 3 1580 4 14 1581 5 25 1582 6 6 1583 7 17 1584 8 28 1585 9 9 1586 10 20 1587 11 1 1588 12 12 1589 13 23 1590 14 4 1591 15 15 1592 16 26 THe Prime or Golden number is the time of .19 yeares in the which time the Moone maketh all hir chaunges or coniunctions with the Sunne and when all these .19 yeares be expired then she beginneth againe as for example This yeare being the yeare of our Lord .1574 she chaunged the .22 day of March and euery yere doth alter .11 days of hir change till the yere .1593 and then she chaungeth the sayd .22 daye of March againe as I shewed you before The Epacte is the putting to .11 for euery yeare Nowe furthermore to knowe the age of the Moone do thus take the number of the Epact for your yere beginning at March alwayes and recken how many monthes it is from March counting March for one then recken howe many dayes of the moneth it is in whiche you would knowe the age of the Moone Then put all your numbers togither that is to say your Epacte your moneth from March and euery day of the moneth then looke howe many it amounteth vnto that is the age of the Moone but if it passe .30 throwe all the .30 away and kéepe that that will not be .30 for when the age of the Moone is iust .30 then is it the chaunge daye and if it be the fiftéenth daye of the age of the Moone then the Moone is at the full When the age is betwéene seuen dayes and eight then is the first quarter And if it be .xxij. dayes olde then the Moone is at the laste quarter as for example this yeare .1574 I looke and finde the Epacte .7 for the yeare nowe I woulde knowe the age of the Moone the .13 daye of Iune Nowe I recken how many monthes it is from March reckning March for one and I finde it is foure monethes then I take and adde all these togyther that is to say seuen for the Epacte and foure for the monethes that is to say March Aprill May Iune and then .13 for the dayes of the moneth and all commeth to .24 So that you may conclude that the Moone is .24 days olde and was at the last quarter two dayes before ¶ The thirde Chapter or rule treateth hovv to knovv by the age of the Moone what houre it dothe flowe or is full Sea at any place where you doe knowe what Moone maketh a full Sea. NOwe by the age of the Moone you may knowe at what houre it floweth in any place where you do know what Moone maketh a full Sea whiche rule commonly the Sea men cal the shifting their Sunne and Moone and many wayes there be too doe it for thus they may doe it Let them deuide one houre into .5 parts and thē take .4 of those parts and put the fifth part away that serueth for the alteration of 24. houres the foure fift parts of an houre are .48 minuts and the .5 part of an houre is .12 minuts A floud and an ebbe dothe alter .24 minuts forwards as this for example it floweth at .12 of the clocke at the Lands end vpon the chaunge day the Moone being in the South at all times a full Sea ▪ The Moone being one day old it floweth at .12 of the clocke 48. minuts .2 dayes olde it floweth at one of the clock .36 minuts .3 days old it floweth at .2 of the clock .24 minuts four dayes old it floweth at .3 of the clocke .12 minuts fiue dayes old it floweth at .4 of the clocke iust Sixe dayes old it floweth at .4 of the clocke .48 minuts Seuen dayes old at .5 of the clocke .36 minuts Eight dayes old at .6 of the clocke .24 ▪ minuts Nine dayes old at .7 of the clocke .12 minuts Ten dayes old it floweth at .8 of the clocke iust Eleuen dayes old at .8 of the clocke .48 minuts 12. dayes .9 of the clocke .36 minuts 13. dayes old .10 of the clocke .24 minuts 14. days old it floweth at .11 of the clocke .12 minuts 15. dayes old it floweth at .12 of the clock iust then being the full Moone and so begin againe as you did before at one day old and so foorth For the course of the tides is nothing else but to adde for euery day● of the age of the Moone one houre pulling backe the fifth par● of an houre being .12 minuts and by this accompt you maye at all times knowe at what a clocke

minutes .5 days olde at .4 of the clock iust .6 days olde at .4 of the clock 48. minuts .7 days olde at .5 of the clock .36 minutes When the Moone is iust a quarter old she is South at .6 of the clock at night at .8 dayes olde the Moone is South at .6 of the clocke .48 minutes at .9 dayes olde at .7 of the clock .12 minutes at .10 dayes olde at .8 of the clocke iust At .11 dayes olde at .8 of the clock .48 minutes at .12 dayes olde at .9 of the clocke .36 minutes at .13 dayes olde at .10 of the clock .24 minutes at .14 dayes olde at .11 of the clocke .12 minutes at .15 dayes olde being the full Moone she is then South at midnight One daye after the full Moone she is South at .12 of the clocke .48 minutes at midnight Two dayes after the full at one of the clocke .36 minutes Three dayes after at .2 of the clocke .24 minutes Foure days after at .3 of the clock 12. minutes Fiue dayes after at .4 of the clocke iust in the morning Sixe dayes after at .4 of the clock .48 minutes .7 dayes after at .5 of the clocke .36 minutes When the Moone is thrée quarters olds she is South at .6 of the clocke in the morning At .8 dayes after the full being the firste daye after the quarter at .6 of the clocke .24 minuts .9 days after at 7. of the clocke .12 minutes .10 dayes after at .8 of the clocke iust .11 dayes after at .8 of the clocke .48 minutes .12 dayes after South at .9 of the clocke 36. minutes .13 dayes after South at .10 of the clocke in the forenoone .24 minutes .14 dayes after at .11 of the clocke .12 minutes at .15 dayes after the Moone dothe chaunge being then with the Sunne for the chaunge of the Moone is when the Moone and the Sunne be bothe vnder one like degree and minute of any signe of the Zodiack The full Moone is when the Sunne and the Moone be opposite the one being directly against the other and iust .6 signes asunder as you maye perceiue at the full Moone for then when the Moone ryseth the Sunne setteth and when the sunne ryseth the Moone setteth The quarters be when the Sunne and Moone be iust .3 signes asunder that is iust .90 degrées Nowe when you list to knowe the very time of the Moones rysing or setting looke in your kalender what signe and degree the Moone is in then according to the rule of the shining deuide that into .2 equall partes then from the South so shall you see at what houre the Moone ryseth as for example this In March alwayes the Sunne is in Aries then the Moone being in hir first quarter then she is 6. hours to the Eastward of the Sunne then the Moone must needs be in Cancer Then shineth the Moone in our Horizon 17. houres then the Moone is South at .6 of the clock then she shineth .8 houres and a halfe after .6 of the clock So that she setteth at .2 of the clock and halfe an houre past then she ryseth in the day .8 houres and a half before .6 of the clock that is at .9 of the clocke and halfe an houre past Now at the last quarter in March then the Moone muste néedes be in Capricornus then shineth the Moone but .7 houres then the moone is South at .6 of the clock in the morning then the Moone riseth .3 houres and a halfe before that is at .2 of the clocke and halfe an houre paste in the morning then she setteth by day at .9 of the clocke and halfe an houre paste and this rule will serue for euer without any great error But yet there is a further matter for the exacte doing which is the Latitude of the Moone from the heade or tayle of the Dragon but that is but a trifle in respecte of muche error and therefore I will not trouble you with that yet there is one thing whiche I would Seafaring men should consider although a great nūbe expert in that yet it is méete to be spoken of as this The Sunne being in Cancer or Moone in like maner or in Gemini or any time when the Sunne or Moone hath North declination they wil set their compasse before them and when they see the Sunne giue an Easte shadowe they will saye that it is .6 of the clock which and if the Sunne be in Cancer it is not muche paste fiue of the clocke and the more to the South wardes the more they doe erre And in like case the Moone being in Cancer when they doe sée the Moone giue an East shadowe by their compasse they will say the Moone is Weast but they do not consider that the Sunne and the Moone being in Cancer commeth so neare our Zenithe or Verticall poynte right ouer our heade whiche is the verie heigth of their declination comming so neare them therfore they must iudge the East or Weast from the Pole or North starre if they will iudge truely Wherefore I do much commende the Equinoctiall Dyals for the exacte truth for they can not know the truth by their compasse so that the Sunne or Moone or any other Starre haue any great declination being in Cancer and you must consider this in like manner The Sunne hauing North declination the further you doe goe to the North wardes the longer is youre daye and the shorter is your night and towardes the Southward the shorter dayes and longer nightes Nowe contrarywise the Sunne hauing South declination the more to the Northwardes the shorter dayes and the longer nightes the further to the Southwards the longer days and shorter nights and vnder the Equinoctiall the nightes and dayes all one what declination soeuer the Sunne hath but this rule that I haue giuen you is for London or any other place that hath that Latitude or eleuation of the Pole Articke at .51 or .52 degrées ¶ The fifth Chapter or rule is of a table of declination commonly called of Seafaring men a Regiment of the Sunne exactly calculated for .4 yeres and wil serue for .24 yeres for euery day of the moneth NOw shall folowe a table of declination or Regiment for 4. yeres being calculated for England and will serue all Europe without much error or any other countrey or place that hath our Longitude as the most part of Affrica as Ginnie and those partes to the South wards as farre as the Antartick pole seruing for euery day of the moneth very necessarie for them that do vse to trauell either by sea or by land and is one of the principall pointes in Nauigation for long voyages and the cause why I haue written this Regiment for the Sea or tables of declination is for that I do knowe that euery person that goeth vnto the Sea as maister of a shippe hath not capacitie to calculate the Sunnes declination by the place of

degrées .56 miles belongeth to one degrée of Lōgitude Now the poles being raysed .29 degrées .52 miles do answer to one degrée The poles being raised .36 degrées .48 miles do answer to one degrée The pooles .42 degrées raysed .44 miles goeth to one degrée of Longitude The Pole raised .57 degrees .32 miles to one degrée The Pole raised .62 degrées .28 miles to one degrée The Pole raised .66 degrées .24 miles to one degrée The Pole raysed .70 degrées .20 miles to one degrée The Pole raysed .74 degrées .16 miles to one degrée The Pole raysed .78 degrées .12 miles to one degrée The Pole raysed .82 degrées .8 miles to one degrée The Pole raysed .86 degrées .4 miles to one degrée The Pole being raysed to the hyest at .90 degrées being then your Zenith there all the Meridians méete A demonstration to knowe howe many miles will answere vnto a degree in Longitude in euery seueral latitude betwene the equinoctial and any of the two Poles This demōstration doth shewe you howe manye myles wyll aunswer to a degree for euery seueral Altitude of the Pole in the halfe circle is marked the eleuation of the Pole in the lyne of Diameter or right line is marked the miles answering euerye degrée and to know howe many miles wil aunswer vnto one degrée first lay the thréed vnto the eleuation of the pole that you do require the number of myles vnto one degree then the iust length of the threde being marked lay the threde vnto the line of Diameter or right line whiche is the line of miles and then you shall see at that place is the number of miles vnto one degrée c. Now you must consider that euery houre of time in the chaunging of the Moone or of the Eclipses you must allow .15 degrees euery degree in miles as you do sée in your Latitude of the countrie as thus those places that be to the Westwards of your towne place or countrie by .15 degrées the Moone shall chaunge rather with them thā with you by one houre bycause that they shall touch your Meridian before theirs by one houre And if the towne or place be to the Eastwards of you by .15 degrées then shall the Moone chaunge rather with you than with them by one houre as for an ensample thus with vs at London the .xx. day of May 1574. the Moone shall chaunge at .12 of the clocke at Noone .5 minutes Now to the Westwards as farre as Lishburne in Portingall the Moone shall chaunge that same day at .11 of the clocke .8 minutes the Longitude being thereof from the Canarie Ilands .5 degrées .36 minutes Now to the Eastwards that same day at noone the Moone shall chaunge at one of the clocke .12 minutes bicause that they haue Longitude .36 degrées .40 minutes from the Cannary Ilands and then by this accompt .7 degrées and a halfe will aunswer to halfe an houre and then .3 degrées and a quarter will make a quarter of an houre and then .9 miles and a quarter will make one minute of time with vs at London in our Latitude so by this rule you may knowe at what time and minute the Eclipses or chaunges of the Moone doe happen knowing for what place your Almanacke was made for commonly we heere in England do make them for the cittie of London Thus muche haue I saide as touching the true time of the chaunge of the Moone for that some people as I haue sayde before in the .3 chapter do contemne and saye why do they not giue or make rules for euer to knowe the houre and minute of the chaunge full and quarters of the Moone And yet they be vtterly voyde of any knowledge in the Mathematicall Science whereby they might knowe the true time of the chaunge of the Moone For it is a question Astronomicall to know the Moones motion a question Geometricall to know the true time of the aspectes or measure betwéene the Sunne and the Moone and thirdly it is a question Cosmographicall to knowe the true Longitude of the place he is in at the time when the Moone chaungeth c. Nowe foloweth the next rule whiche shall treate of Longitude and Latitude ¶ The .17 Chapter or rule treateth of the Longitude and Latitude of certaine of the most notable places in Englande and also howe long the Moone doth change at the one towne before the other with the diuersitie of the longest day in Sommer from South Hampton to the Northermost parte in Scotland NOwe in this rule foloweth the Longitude and Latitude of the most part of the principall places in England The Southermost place in England is the Lizarde in Cornwal the Longitude thereof is .15 degrées .5 minutes the Latitude 50. degrees .45 minutes S. Michaels Mount hath in Longitude .14 degrees .20 minutes in Latitude .51 degrees .6 minutes Falmouth hath Longitude .15 degrees .12 minutes Latitude .51 degrees .0 minuts Plimmouth hath Longitude 19. degrees .7 minutes Latitude .51 degrées .1 minute South Hāpton Longit. 18. degr 52. minuts Latitude .51 degr 2. mi. Portsmouth Longitude .19 degrees .7 minutes Latitude .51 degrées .3 minutes Rye Longitude .20 degrées .22 minutes Latitude .51 degrees .5 minutes Douer Longitude .21 degr 40. minutes Latitude .51 degrées .26 minutes Canterburie Longitude .21 degrées .25 minutes Latitude .51 degr 28. mi· Sandwich Longitude .21 degr 38. minuts Latitude .51 degr 29. minutes London Longitude .15 degr 54. minutes Latitude .51 degr 32. minuts Grauesend Longitude .20 degr 14. minuts Latitude .51 degr 31. minuts Bristowe Longitude 17. degr 8. minutes Latitude .51 degr 42. minuts Haruarde Longitude .17 degr 0. minutes Latitude .52 degr 2. minuts S. Dauids head Longitude .15 degr 5. minuts Latitude .52 degr 15. minuts Oxford Longitude .18 degr 59. minut Latitude .51 degr 50. minuts Cambridge Longitude .20 degr 6 minuts Latitude .52 degr 0. minuts Norwich Longitude 21. degr 20. minuts Latitude .52 degr 10. minuts Lincolne Longitude .20 degr 28. minuts Latitude .52 degr 6. minuts Weshpoole Longitude .16 degr 40. minutes Latitude .53 degr 6. minuts Westchester Longitude .15 degr 29. minuts Latitude .53 degr 34. minuts Hull Longitude .20 degr 54. minuts Latitude .53 degr 57. minuts Yorke Longitude .20 degr 0. minuts Latitude .54 degr 1. minute Cockermouth Longitude .17 degr 0. minuts Latitude .55 degr 8. minuts Carlyle Longitude .17 degr 48. minuts Latitude .55 degr 2. minuts Newcastle Longitude .20 degr 31. minuts Latitude .55 degr 0. minuts Barwicke Longitude .20 degr 48. minuts Latitude .56 degr 23. minuts Edenborow in Scotlande Longitude .19 degr 50. minuts Latitude .57 degr 0. minuts Now by the Longitude Latitude you may know the length of the day both in Sommer and in Winter with the perfit houre and minute of the changes of the Moone and how long the Moone doth change at one town before another through the whole realme of England And now in order as I haue begon before I will

day at any time in any place What the day is The North Starres declination ▪ In going southwards you rayse the equinoctiall lay the pole in going to the northwards rayse the pole and lay the Equinoctiall Of englishe leagues and spanish leagues A mile containeth 1000. pases and euery pase .5 fote A degree is 60. miles or 20. englishe leagues A note to knowe in how far sayling you do rayse or lay a degree in the sayling by any one point of the compasse A note for the land rysing in diuers shapes or fashions To knowe how far the lande is frō you Where two lands be but one point asunder Of .2 places to be one point asunder To be two points asūder 3. pointes asunder 4. pointes asunder 5. pointes asunder 6. pointes asunder Of going or sayling right into the shore A way to knowe how one hedland beareth of another To knowe the distance at the Sea betweene any .2 headlandes To knowe howe far it is vnto the land an other way To knowe the shippes way An englishe league .2500 fadome A Spanish league .2857 fadome Altering the time of rising and setting of the lights Altering the aspects Of Latitude and Longitude 15. degrees is an houre of time and at London it is .555 miles Longitude beginneth at the Cannary Ilāds To know the true time of the aspects of the Mone The Longitude is not to be gotten with instrumēts on the Sea. 15. degrees answereth vnto an houre of time To knowe the true time of the change quarters of the moon is a question astronomicall geometricall and cosmographicall To know the diuersitie of the time of the chaunge of the moon through all England To know the lēgth of the longest day through all England Scotlande You cannot drawe the Land sea true vpon a flat thing To make a Sea plat or carde The compasse of the earth The compasse of the earth vnder the tropick of Cancer The artick circle of Lōdon vnder the Polare circle How to vse the globe to direct your course and to knowe how that any place doth beare The distāce between the equinoctiall and the tropick of Cancer Between the artick circle of London the tropick of Cancer The cause why that you may see the sailes of a ship not the whole To knowe howe many foote and ynches that the water is higher than the leuell or the sea between two ships What a ken is and the cause why you may see a ship further out of the top then vpon the hatches Not to paint their Sea cards but to vse the vacant places with other necessary matters To draw the shape of the lād in their cardes Great infirmities by mistaking any place How necessary a thing the sea cardes be .3 necessarie things in the sea cardes To knowe howe any place dothe beare from you by the carde To knowe howe far it is vnto any place by the carde To knowe what Latitude or heigth of the pole any place hath by the carde Things to be cōsidered by the M. or pilote of a ship They may correct the ships waye by the taking the heigth of the Pole. To knowe howe far that the lande is of from you by the sight of the lande with youre compasses to do it vpon the land If the pole be raysed more than 50. or .60 degrees it is to hye to be obserued by the crosse Staffe These Starres will serue beyond the Equinoctiall To knowe the rising and setting of these Starres in all places by the order of the xi Chapter The order of the table following How to vse the starres declination to know the heigth of the Pole. The .11 chapter will shewe howe long any of these stars wil shine in all places The signification of the letters in the table The sunne and moone doth giue a full shadow by the compasse The Equinoctiall diall giueth a true shadowe all the world ouer A perilous matter The moone may decline 28. degrees and a halfe from the Equinoctiall Of mē that wil haue instruments and knowe not the vse of them An easie waye to make an equinoctiall diall with little charge The sounding neare vnto Vshāt and the Lizarde The sounding in the channell The higth of the pole at the entrāce of the Sleeue Necessary things to be noted for thē that are Chānellers dealers amongst sandes Of the cōpasse to varie by euen proportion Of the cōpasse to vary by no proportion Of the compasse to varie according vnto the proportion of a circle that is swiftly slowly To know in how many degrees goyng but the Eastwarde or Westwarde that the cōpasse doth varie one poynt or .2 points or .3 points c. To knowe how many degrees is in the varying of one poynt If you wil know howe many leagues a degree is repayre to the 16. chapter There may growe some errour in the proportion of the varying of the Compasse Thinges that I can not know Of slowe varying of the cōpasse How easy it is to knowe whether that the cōpasses made in the West Indies ▪ do stād due North. Of making notes of the variation The Table of the contents of this booke THe first chapter of Nauigatiō sheweth what the .32 poyntes of the compasse be and to what vses they do serue Fol. 8. a The .2 chapter treateth of the golden number or prime shewing the Epact and by the Epact to knowe the age of the Moone Fol. 9. b The .3 chapter teacheth howe to know by the age of the Moone what a clocke it dothe flowe or is full Sea at any place where you do knowe what Moone maketh a full Sea. Fol. 10. b The .4 chap. treateth of the Sunne and Moones course in the Zodiacke and howe you shall knowe at what houres the Moone shal rise and set at and at what poynt of the Compasse with other necessarie things Fo. 14 ▪ a The .5 chapter is of a table of declination commonly called of Seafaring men a Regiment of the sunne exactly calculated for .4 yeres and will serue for .24 yeres for euery daye of the monthe Fol. 16. b The .6 chapter sheweth howe to take the height of the Sunne with the Crosse staffe c. Fol. 26. a The .7 chapter sheweth howe to handle the declination of the Sunne to know the altitude of the north pole aboue the Horizon the height of the Sunne beeing truly taken knowne in any place betweene the North pole and the Equinoctial so that the sunne be vnto the Southwards of you at the taking of the fame vpon the Meridian Fol. 29. a The .8 chapter sheweth you how to handle the declination of the Sunne when you are betweene the Equinoctiall and the sunne that is to say the sunne to the Southwardes or Northwards of you and the Equinoctiall to the Northwards or Southwards or vnder the Equinoctiall the height of the sun being truly knowē or takē f. 30. b The .9 chap. sheweth howe to handle the declination of the sunne when you are beyonde the Equinoctial that is to say betweene the South pole and the Equinoctiall with certen ensamples bothe for the South pole and the North pole Fol. 32. a The .10 chapter sheweth howe to handle the sunnes declinatiō vnto the Northward where the sunne doth not set vnder the Horizō and also to take the sun at the lowest due north f. 34. b The .11 chap. doth shew howe you shall know the length of the day and to know how muche the day is shortned or lengthened by the sunnes declination Fol. 36. a The .12 ch is of the North-star f. 38. a The .13 chap. doth shew you by the sayling vpō the quarter of your compasse in how far sayling you do rayse a degree and what you do depart from the Meridian c. Fol. 39. a The .14 chapter sheweth howe to knowe howe farre any lande is off from you if you knowe the distance betwene any two places whether that you do runne alongst by the lande or directly to the shore or otherwise with other necessarie things Fol. 40. a The .15 chapter treateth of the longitude c. Fol. 42. b The .16 chapter sheweth how many miles will answere to one degree of longitude in euery seueral latitude betweene the Equinoctiall and eyther of the two poles with the demōstratiō for that purpose also the diuersitie of aspects of the Moone fo 44. a The .17 chapter treateth of the longitude and latitude of certayne of the most notable townes in Englande and also how long the moone doth chaūge at one towne before an other with the diuersitie of the longest day in sommer from Southhampton to the northermost part in Scotland Fo. 45. b The .18 chapter sheweth howe to sayle by the globe And to know how much the water is hyer than the leuell betweene any two shippes on the Sea which groweth by the roundnesse of the earth Fol. 47. a The .19 chapter is as touching the making of plattes or Cardes for the Sea and not to paynt their Cardes as they doe but rather to fill the vacant places with other necessarie matters and also of three necessary things conteyned in the Plattes or Cardes with their vses Fol. 49. a The .20 chapter is of the longitude and declination of .32 notable fixed starres for Nauigation with tables of their shining and at what poynt of the compasse they do both rise and set it hathe also tables for euery monthe in the yere declaring at what time they wil be South c. which wil continue these .100 yeres without muche error Fol. 51. b The .21 chapter sheweth you the making of a generall Instrument to know the houre of the day by through out all the worlde Fol. 57. b The .22 chap. treateth of the soundings cōming from any place out of the Occidentall Sea to seeke Vshant or the Lizarde and so all alongst tyll you come to the coast of Flaunders with other necessarie matters to be knowne for them that be Chanellers that occupie or deale amongst sandes bankes c. Fol. 59. b The .23 chapter is as touching the variation of the Compasse called the Northeasting and Northweasting of the Compasse and howe to giue a gesse to know the longitude Fol. 61. a FINIS