e △ ☉ ♄ 28 51 26 6 ♃ 15 38 ♒ 8 12 3 48 8 f ⚹ ♃ ☽ ♐ 10 55 27 7 ♂ 27 49 ♒ 8 13 3 47 9 g △ ♄ ☽ 23 10 28 8 ♀ 8 28 ♒ 8 13 3 47 10 a SS ♃ ☿ ♑ 5 34 29 10 ♀ 15 50 ♑ 8 13 3 47 11 B   18 3 29 11 ♄ 26 27 ♌ 8 13 3 47 12 c ☌ ♀ ☽ ♒ 0 49 1 12 ♃ 16 38 ♒ 8 13 3 47 13 d Bq ♄ ☿ 13 42 2 14 ♂ 1 35 ♓ 8 13 3 47 14 e ☌ ♂ ☽ 26 45 3 15 ♀ 14 26 ♒ 8 13 3 47 15 f ⚹ ☿ ☽ ♓ 10 0 4 16 ☿ 22 50 ♑ 8 13 3 47 16 g ☽ ☊ ●3 29 5 17 ♄ 26 17 ♌ 8 13 3 47 17 ● ⚹ ♃ ☽ ♈ 7 10 6 19 ♃ 17 39 ♒ 8 1● 3 48 18 B □ ☿ ☽ 21 9 7 20 ♂ 5 21 ♓ 8 12 3 48 19 ● ⚹ ♂ ☽ ♉ 5 25 8 21 ♀ 20 22 ♒ 8 1● 3 48 20 d ☽ perigri 19 57 9 23 ☿ 28 35 ♑ 8 1● 3 49 21 e Thomas A ♊ 4 38 10 24 ♄ 26 6 ♌ 8 10 3 50 22 f △ ♀ ☽ 19 24 11 25 ♓ 18 44 ♒ 8 9 3 51 23 g ☍ ♄ ♀ ♋ 4 7 12 27 ♂ 9 8 ♓ 8 8 3 52 24 a ☍ ♀ ☽ 18 35 13 28 ♀ 26 18 ♒ 8 6 3 54 25 B Christmas ♌ 2 47 14 29 ☿ 1 51 ♒ 8 5 3 55 26 ● Stephen 16 33 15 30 ♄ 25 51 ♌ 8 ● 3 55 27 d Iohn Eva. 29 55 16 31 ♃ 19 48 ♒ 8 4 3 56 28 e Innocents ♍ 12 50 17 33 ♂ 12 54 ♓ 8 4 3 56 29 f △ ☿ ☽ 25 23 18 34 ♀ 2 8 ♓ 8 3 3 57 30 g Bq ☉ ♄ ♎ 7 36 19 ●5 ☿ 0 57 ♒ 8 3 3 57 31 a Silvester 19 38 20 37 ♄ 25 35 ♌ 8 2 3 58 IACKSON 1653. A Prognostication gathered from the Suns Ingresses together with Astronomicall Solar propositions wherein is 28. operations Illustrated by examples VVhereunto is annexed the manner hovv to calculate an Eclipse of Sun or Moon for any place assigned for any time past present or to come And finished vvith the Proportionall bodies of the Spheres one to another and the distance of the Planets among themselves and with the firmament By THOMAS JACKSON Mathematician Printed at London by W. Wilson for the Company of Stationers 1653. The Moneth Day Hour and Minute of the Suns Ingress or the Suns Entrance into the four Cardinall Signes this present year 1653. THe Cardinal Signs are Aries Cancer Libra Capriorn being as it were the hinges on which the year bangeth The first Quarter is the Spring enters with the Sign of Aries to whose first minute the Sun cometh this year on the 10 day of March 5 min. past 2 a clock in the morning The next Quarter is Summer the Cardinal Sign is Cancer the beginning of Summer is the 11 day of June 10 min. past 5 a clock in the morning Autumn or Harvest beginneth Libra the 12 day of September at 8 a clock at night Winter taketh his beginning Capricorn the 11 day of December half an hour past 7 in the morning Of the Eclipses hapning this year 1653. THis year there will be four Eclipses two of the Sun and two of the Moon of which there will be but one visible in our horizon and it will happen the 4 day of March 49 minutes past 1 in the morning and ends 57 minutes past 5 in the morning so that the total duration will be 4 houres 8 minutes The digits eclipsed is 18.43 minutes I here omit the other three Eclipses of which the effects will not happen in and about England as for our Eclipse the 4 of March before mentioned the effects will happen in June ensuing on which time is the height of the effects of that Eclipse hapned on the 29 day of March 1652. And for which time to portend the contingencies or more plainly to foretell what accidents may happen to sublunary bodies I must have recourse to the Solar Eclipse happened March 29 day 1652 for that Eclipse will oversway predominate and have dominion over this Lunar Eclipse so the portendation● there will be much arrogancie about the Eastern parts from London pestilent feavers the death of great men men of power much rapine theft plundring house burnings death of cattle c. A short discoverie of this present year 1653 gathered from the position of the Heavens at the Suns ingress of the four Cardinal Signs NOt using novilunium postventionale vel perventionale in vernum aestivum autumni hibernium but the vernall Ingress of the Sun with the other ingressions of the Cardinal Signs Haly saith Major tamen potentia c. The greatest power in signification of the accidents of the year is over given unto the Lord of the Ascende●● c. For confirmation of my judgement herein in this Revolution is as viz. ☉ in ♈ Martii 9 die 14. hora. 5. min. die ♄ hora ♂ ☽ △ ad ☉ △ ad ♄ ☽ ⚹ ad ♃ ☌ ad ♂ ☽ □ ad ♀ ♂ △ ad ☉ Jupiter is Lord of the ascendent posited in the second house the cusp of the ascendent is possessed with common sign the Lord thereof in a fixed sign and in a succedent house and he being a weighty Planet these testimonies do signifie that this Suns vernal Ingress that predictions may be portended throughout the Revolution Furthermore consider that the next Quarter the Sun enters ♋ the 11 of June 5 a clock and 10 minutes past noon then is Jupiter Lord of the Ascendent as he is in this Quarter and in Autumn he hath his triplicity in the Ascendent and when the Sun enters the Winter Quarter Jupiter is Lord of the Ascendent to which I conclude Jupiter is Almutan of the year makes Venus Cosignificator Si ascendit Sagitarius solicitabitur circae aedificationes I say Sagitarius being the Sign ascending signifies men will much delight to build c. Jupiter Lord of the Ascendent signifies as viz. Si Jupiter ascendentis Dominus eum intueatur felici radio bonam fortunam sanitatem gaudium lucra hominibus inprimis religiosis honoratis extruentur Ecclesiae oratoria appetuntque homines studia sapientiae legum That is to say If Jupiter be Lord of the Ascendent as now he is he denotes much prosperity and happiness good fortune health soundness good state of wit and memory many glad tidings and riches men and women subject to humanity religion for reputation and honour to magnifie our Redeemer in many private assemblies men much desire to read and study after wisdom The Lord of the Ascendent being posited in the second house signifies as viz. Felix promittit lucra multa vitam speciosam Here is promise of much riches and happiness and to live a godly life Venus being in the second house signifies Fertilitatem

suns oblique descension If the suns declination had been South you must then substract To find the sun rising and setting the length of the day and night To know the sun rising look in the second operation where is the ascensional difference converted into time which is 1 hour 50 m. that take from 6 a clock which will be the remainder 4.10 that is to say at 4 a clock ten min. after the sun will rise which double will be 8 h. 20 m. the length of the night To find the sun setting adde 1 h. 50 m. to 6 a clock and it will be 7 a clock 50 m. after which being doubled is 15 h. 40 m. the length of the day The Illustrated operations stands thus The suns declination North 20 d. 14 m. given d. m. The elevation of the Pole is 51 d. 32 m. given d. m. The suns almicanter is 49 d. 00 m. given d. m. The suns meridian height is 58.42 The suns place in Gemini 00.00 The suns amplitude is 33.47 The suns ascensional difference is 27.38 The same converted into time is hour 1.50 The suns almicanter at 6 a clock is 15.43 The difference of the almicanter is 28.56 The suns almicanter when he is East and West 26.13 The difference of the almicanter given 49 is 18 14 The suns azimuth at 6 a clock 12.56 The suns azimuth easterly 36.52 The degrees the sun swerved from 6 to East 17.01 The same converted into time is hour 1.08 The degrees the sun swerved from 6 to the time of observation is 55.49 The same converted into time is houres 3.43 The sun rising is at houres 4.10 The sun sets at houres 7.50 The length of the day is houres 15.40 The length of the night is houres 8.20 The sun at East houres 7.8 The sun at the point of East at houres 7.8 The hour of the day is 9 a clock 43 min. after houres 9.43 The suns right ascension is 51.48 The suns ascensional difference is 27.38 The suns oblique ascension is 30.10 The suns oblique descension is 85.26 The suns semidiurnal arch is 117.38 The suns diurnal arch is 235.16 How to calculate the Eclipse both Solar and Lunar for any place assigned for any time past present or to come IT is required to know if the Moon will be Eclipsed in February 1663 and if she be the quantity and duration Place assigned Calculated for the Town of Litterworth in Leicestershire whose Latitude is 52 deg 36 min. and the Meridian differs from London 4 minutes To know if the Moon will be Eclipsed that moneth and year first I find the opposition of the Sun and Moon that time as thus The middle motion of ☽ Time given s d. m. se s d. m se 1601 9.19.58.34 0.7.33.29 60 0 00.26.5● 1.10.41.12 2 11.29.31.20 8.18.46.5 February 01.00.33.18 1.18.28 6 The middle motion of ☉ 10.20.30.08 11.25.28.52 Mid. motion of ☽ substr 11. ●5 28.52   Distance of ☽ from ☉ 10 25.0●.16   Semicircle substract 6.   Dist of ☽ from ☍ of ☉ 4.25.1.16   This distance reduced into time will be the true opposition of the Sun and Moon according to there middle motion as viz. The distance of the Moon from opposition of the Sun is So that the mean opposition of the Sun and Moon in that year and moneth will happen 11 day 21 houres 26 min. 13 seconds p.m. To find the true opposition of the Sun and Moon I calculate to the time of the mean opposition the true place of the Sun and Moon as viz.   ☉ longit ☉ Apogaeo ☽ longit ☽ Apogaeo Time given s d. m. se s d. m. se s d. m. se s d. m. se 1601 9●●9 58.34 3.5.43.28 0.7.33.29 7.19.00.30 60 00.00.26.56 1.1.38 1.10.41.12 9.11.34.42 2 11.29.31.20 2.4 8.18.46.5 2.21 19.49 February 1.00.33.18 5 1.18.28.6 0.03.27.13 dayes 11 00. ●0 50.32 2 4.24.56.25 1.13.32 houres 21 51.45   0.11.31.46 5.51 minutes 26 1.4   14.16 7 seconds 13     7 1 Middle motion of ☉ ●1 02.13.29 3.6.47.17 5. ●2 11.26 7.25.41.45 Apogaeon substract 3.6.47.17   7.25.41.45   The Anomilie of ☉ 7.25.26.12   9.06.29 4● The Anomile of ☽ The mid motion of ☉ 11.2.13.29     The Equation added 1.42.39       The Suns place 11.3.56.05       The Moons place 5.7.6.26       The difference of Sun and Moons places I divide by the hourly motion of the Moon from the Sun and remainder will be the intervall of time that is to say the time between the mean and true opposition of the Sun and Moon 6 hours 27 min. 13 sec and in regard the Moons place exceeds the Suns place in opposition I substract the interval of time from the mean opposition as viz. The mean opposition in Anno 1663 in Febr. is 11 dayes 2 houres 30 min. 13 seconds out of which substract the interval of time 6 houres 27 min. 13 sec and remainder is 11 dayes 15 houres 3 minutes 00 sec with which corrected time I compute and examine the Sun and Moons places for the true opposition as viz.   Longit. of ☉ s d. m. h Longit. of ☽ s d. m. h.   Mid. motion of ☉ 11.1.57.14 4.28.41.3 Mid. mo of ☽ Apheliō of ☉ subst 3.6.57.17 7 26.30.58 Aph. of ☽ sub Anomile of ☉ 7 2459.5● 9.2.2.10 Anomile of ☽ Aequation of ☉ ad 0.01.41.47 0 04.57.58 Aequ of ☽ ad Anom of ☉ coaeq 7.25.49.42 9.4.29 50 An. of ☽ coaeq True place of ☉ ♓ 03.39.01 ♍ 3.39.1 Tru place of ☽ I conclude in the aforesaid year moneth day hour minute The Sun and Moon will be in opposition for the Suns true place will be Pisces 3 deg 39 min. 1 sec and the Moons true place will be Virgo 13 deg 39 min. 1 sec To find if the Moon will be eclipsed or not If at any time the mean ful Moon her place be distant from either of her nodes less than 15 degrees 12 minutes either according or contrary to the Succession of the Signs that full Moon will suffer an eclipse Example at the time of the middle of the full Moon before mentioned in Febr. 1663. the 11 day 21 hour 30 min. 13 sec the middle place of the Moon is 5 s 7 d. 6 m. 26 se and her node ascending is 5.1.26.22 So that between the Moons place and her node is but 5 deg 40 min. 4 sec So I conclude that ful Moon wil be eclipsed The apparent time to be found I substract the Aequation of civil dayes 11 houres 11 min. from the true opposition the residue will be the apparent time 14 houres 52 min. The horizontal parallex of the ☉ 2 m. 21 se The horizontal parallex of the ☽ 57.53 The hourly motion of the ☉ 2.31 The hourly motion of the ☽ 33.15 The semidiameter of the ☉ 16.38 The semidiameter of the ☽ 16.11 The appatent semidiameter of the Earths shadow is 43.36 The hourly motion of the ☉ from the ☽ 30 44 To

Speculum Perspicuum Vranicum OR A GLASSE Wherein you may behold The Revolution of the YEAR of our LORD CHRIST M.DX LIII Being the first after Bissextile or Leap-year SHEWING All the notable Aspects of the PLANETS with the MOON and among themselves With the true place of the Sun Moon In Signes Degrees and Minutes For every DAY in the YEAR And true place of the other Planets every Fift day Unto which are added some Astrological Predictions gathered from the Quarterly REVOLUTIONS of this year 1653 Calculated for the Meridian of LONDON Differs from the Meridian of Litterworth 4 Minutes Whose Pole-artick is elevated above the Horizon 51 degrees 32 minutes North latitude By THO. JACKSON Mathemat London Printed by E. Cotes for the Company of STATIONERS 1653. Vulgar notes according to the Julian account used here in England for this year 1653. The Golden Number   1 The Dominical Letter   B The Circle of the Sun   10 The Roman Indiction   6 The Number of Direction   20 The Epact   11 Shrove Sunday February 20 Septuagesima Febr. 6 Sexagesima Febr. 13 Quinquagesima Febr. 20 Quadragesima Febr. 27 Easter day Aprill 10 Rogation Sunday May 15 Ascension day May 19 Whitsunday May 29 Trinity Sunday Jun. 5 Advent Sunday Novemb. 27 〈◊〉 Term beginneth the 24 day of January and endeth the 12 day of February Easter Term beginneth the 27 of Aprill and endeth the 23 day of May. Trinity Term beginneth the 5 of June and endeth the 29 day Michaelmas Term beginneth the 24 day of October and endeth the 28 day of November The names and Characters of the 12 Signs of the Zodiack with a description of what part or member of the body each Sign governeth ♈ Aries Head and Face ♉ Taurus Neck and throat ♊ Gemini Armes Shoul ♋ Cancer Brest Stomach ♌ Leo Heart and Back ♍ Virgo Bowels and Belly ♎ Libra Reins and Loines ♏ Scorpio Secret Members ♐ Sagittarius Thighs ♑ Capricornus Knees ♒ Aquarius Legs ♓ Pisces Feet Names and Characters of the 7 Planets with the Head and Tail of the Dragon ♄ Saturne ♃ Jupiter ♂ Mars ☉ Sol. ♀ Venus ☿ Mercury ☽ Luna ☊ Dragons Head ☋ Dragons Tail A Table of the Aspects   s. d.   ☌ Conjunction 0 0 Novilunium SS Semisextile 1 0   ⚹ Sextile 2 0 Corniculata Q Quintile 2 12   □ Quartile 3 0 Semiplena Td Tridecile 3 18   △ Trine 4 0 Gibbosa Bq Biquintile 4 24   ☍ Opposition 6 0 Plenilunium A brief description of the particular things contained in this Almanack examplary IN this Almanack the twelve moneths are contained in 12 pages each page is divided into 8 Columnes In the First is placed the dayes of the moneth The second the dayes of the week The third containeth the fixed and movable spheares the beginnings and endings of the Termes the Aspects of the Planets with the Moon and mutually with themselves and the Moon in her Apogaeon Perigaeon The fourth sheweth the place of the Moon in signs degrees and minutes The fifth sheweth the place of the Sun in signs degrees and minutes The sixth sheweth the places of the Planets every fift day at noon The seventh sheweth the time of Sun rising every day in the moneth The eighth sheweth the time of Sun setting every day in the moneth Example The 19 day of Jan. being Wednesday Saturne is in Biquintile of Venus or an aspect of distance 4 signs 24 degrees on the 15 day Jupiter is Semisextile to Venus in the 9 day the Moon is in her Apogaeon and the 31 of Jan. Saturne is in Conjunction with the Moon the Moons place is 2 degr 18. min. in Leo place of the Sun is 22 degr 23 min. in Aquarius Saturn is that day 8 degrees 28 min. in Leo. How to find the true place of any of the Planets for any day that be intermediated by taking the difference betwixt the two dayes before and after the time assigned Example I would know the true place of Jupiter the 6 day of Jan. I find Jupiter on the 2 day to be 24 day 14 min. of ♑ and on the 7 day I find him in 25 day 24 m. of ♑ direct the difference is 1 day 10 min. to find his true place on the 6 day then say by the rule of 3. if 4 daies motion give 70 min. what shall 3 daies motion give multiply and divide and you shall finde 52 min. 30 sec the which adde to 24 d. 14 min. and it will be 25 d. 6 min. 30 sec the true place of Jupiter on the 6 day of Jan. The like may be said for any other time and for any other Planet Behold the work January hath xxxj dayes Full Moon 3 day 17. min. past 5 afternoon Sun rising Sun setting Last quarter 11 day 25. min. past 7 afternoon New Moon 19 day 7 min. past 6 before noon First quarter 25 day 12 min. past 11 at night MD WD Mutuall aspect ☽ place ☉ pla Planet places H.M. H.M. 1 a New year ♊ 24 33 21 52 ♄ 10 52 ♌ 8 2 3 57 2 B   ♋ 8 2 22 54 ♃ 24 14 ♑ 8 0 4 0 3 c ☌ ♃ ☉ 21 16 23 55 ♂ 2 57 ♏ 7 57 4 3 4 d ☽ with ♄ ♌ 4 14 24 56 ♀ 12 44 ♐ 7 56 4 4 5 e Simeon 16 55 25 58 ☿ 14 46 ♒ 7 55 4 5 6 f Twelfth day 29 17 26 59 ♄ 10 48 ♌ 7 54 4 6 7 g □ ♀ ☽ ♍ 11 25 28 0 ♃ 25 24 ♑ 7 53 4 7 8 a ☽ ☋ 23 21 29 1 ♂ 5 36 ♏ 7 52 4 8 9 B ☽ Apogeon ♎ 5 10 ♒ 2 ♀ 19 55 ♐ 7 51 4 9 10 c ☉ in ♒ 16 52 1 3 ☿ 17 56 ♒ 7 50 4 10 11 d □ ♄ ☽ 28 43 2 4 ♄ 10 6 ♌ 7 49 4 11 12 e □ ☿ ☽ ♏ 10 39 3 6 ♃ 26 35 ♑ 7 47 4 13 13 f Hillarie 22 46 4 7 ♂ 8 10 ♏ 7 46 4 14 14 g △ ♄ ☽ ♐ 5 16 8 8 ♀ 25 15 ♐ 7 45 4 15 15 a SS ♃ ♀ 18 7 6 9 ☿ 17 13 ♒ 7 44 4 16 16 B ⚹ ♂ ☽ ♑ 1 23 7 10 ♄ 9 41 ♌ 7 42 4 18 17 c ☽ with ♃ 15 4 8 11 ♃ 27 45 ♑ 7 41 4 19 18 d ☍ ♄ ☉ 29 6 9 12 ♂ 10 39 ♏ 7 39 4 21 19 e Bq ♄ ♀ ♒ 13 32 10 13 ♀ 1 15 ♑ 7 38 4 22 20 f △ ♂ ☽ 28 4 11 14 ☿ 12 26 ♒ 7 36 4 24 21 g   ♓ 12 46 12 14 ♄ 9 17 ♌ 7 34 4 26 22 a ☽ perigri 27 20 13 15 ♃ 28 55 ♑ 7 32 4 28 23 B   ♈ 11 50 14 16 ♂ 13 3 ♏ 7 31 4 29 24 c Term begin 26 12 15 17 ♀ 7 17 ♑ 7 30 4 30 25 d ☍ ♂ ☽ ♉ 10 18 16 18 ☿ 6 28 ♒ 7 28 4 32 26 e △

uberem proventum frugura item affluentem liberalem vitem Yet I see more happiness portended by the Moon her application to the two fortunes to wit the Lord of the Ascendent and his Lady which is Venus by name for the Moon is in conjunction with Jupiter on March 15 day at 2 a clock in the morning Venus with the Moon on the 17 day at 5 in the morning so that the first Planet the Moon applyes to after the Suns vernal ingress is Jupiter the Lord of the Ascendent next Venus then Mercury see what Origanus saith in such a matter In anni quarturum revolutionibus aut thematibus lunationum si luna sive firma c. potens sit in angulo vel succedente domo dignitatibus sive debilis cadens extra dignitates applicuerit benefico alicui planeti Jovi vel Veneri significabitur status populi fortunatus quo lucra eidem accrescent abundabunt necessariae vigebitque si applicuerit Jovi justitia pax libertas si Veneri erit hilaritas gaudium frequentia connubiorum In the Revolutions of the year and of the quarterly Ingresses or in the Theams of the several Lunations if the Moon whether she be strong and potent in an Angle or succedent house and in her own dignities or if she be in weak and cadent without her dignities and shall apply to any benevolent Planet viz. Jupiter or Venus it signifieth the state and condition of the people to be fortunate whereby they shall get wealth and have abundance of all necessaries and if this application be to Jupiter justice peace and liberty shall flourish If to Venus there shall be mirth joy and many mariages these are significations of double joys but the Eclipse of the Sun happening in the year 1652. 29 day of March will single the joys Jupiter with Venus doth signifie Agunt quidem juxta naturam fortioris in themate in genere vero serenitatem afferunt in aqueis vero locis mites lenes pluvias hoc certius si lunae testimonium radio vel ☌ accesserit A Table of the altitude of the Sun in the beginning of each Sign at all houres of the day calculated for 51 degrees 30 minutes North latitude Bef noon Aft. noon ♋ ♊ ♌ ♉ ♍ ♈ ♎ ♓ ♏ ♒ ♐ ♑ d. m. d. m. d. m. d. m. d. m. d. m. d m. 12 62.00 58.20 50.0 38.30 27.6 18.20 15.10 11 1 59.44 56.30 48.12 36.56 25.42 17.10 13.58 10 2 53.45 50.45 43.20 32.38 21.53 13 40 10.30 9 3 45.30 43.10 36.10 26.8 15.59 8.18 5.20 8 4 36.40 34.12 27.30 18.8 8.35 1.17   7 5 27.16 25 00 18.20 9.21 0 6     6 6 18.10 15.46 9.5         5 7 9.36 7.4           4 8 1.39             You may behold in this Table that when the Suns place is in the first point of Cancer his Meridian height will be 62 degrees in Gemini is 58 deg 28 min. in Leo is the same degrees and minutes Suppose that when the Sun is in the first point of Aries or Libra and you find the height of the Sun taken by the quadrant to be 38 deg 30 min. and you would desire to know what a clock it is at that time look in the foregoing Table under the Signs Aries and Libra and you will find in the column under the title before and after noon to be 12. then you may conclude it is high noon Had it been that the Sun was but 36 deg 56 min. high that day then you may conclude to be a 11 of the clock if it be in the aforenoon if it be in the afternoon it is 1 a clock Suppose you had observed the Sun to be 26 degrees and 8 min. high in the same day then it is 9 of the clock if your observation be in the morning but if it be in the afternoon then it is 3 a clock and so with the rest At any time when the Sun is far remote from the first point of any Sign take the proportional part and the like for your altitude taken when it will not concur with the altitude in the Table so you will find the Suns altitude above the horizon at any time A Table of the Azimuth of the Sun in the beginning of each Sign for all houres of the day for the latitude of 51 deg 13 min. Bef no. Afr. no. 11 1 10 2 9 3 8 4 7 5 6 6 5 7 4 8 Signes d. m. d. m. d. m. d. m. d. m. d. m. d. m. d. m. ♋ 61.41 38.00 22.00 8.5.0 3. n. 20 14.40 25.30 37 0● ♌ ♊ 63.52 41.30 24.45 10.5.4 1.00 12.12 23.25   ♍ ♉ 67.10 47.30 31.2 17.00 4.3 6.52 18.12   ♎ ♈ 70.00 53.25 37.56 24.5 11.22       ♏ ♓ 72.30 58.00 43.40 30.25         ♐ ♒ 74.20 60.55 47.49 35.00         ♑ 75.2 62.1 49.3           When the Sun is in the first point in Cancer a● 9 a clock before noon or 3 a clock in the after noon it is required the Suns Azimuth which is 22 degr 00 min. in the same houres in Leo and Gemini it is 24 deg 45. min. as in like manner with the rest A Table of the Suns declination for every degree of the Ecliptique degrees ♎ ♈ ♏ ♉ ♐ ♊ degrees d. m d. m. d. m. 1 0.24 12.00 20.26 29 2 0.48 12.13 20.39 28 3 1.2 12.33 20.49 27 4 1.35 12.54 21.1 26 5 2.10 13.13 21.12 25 6 2.23 13.34 21.23 24 7 2.47 13.54 21.43 23 8 3.11 14.13 21.52 22 9 3.35 14.33 22.2 21 10 3.58 14.52 22.10 20 11 4.23 15.11 22.18 19 12 4.45 15.29 22.26 18 13 5.9 15.48 22.34 17 14 5.32 16.6 22.40 16 15 6.4 16.23 22.47 15 16 6.19 16.41 22.53 14 17 6.42 16.58 22.59 13 18 7.5 17.15 23.4 12 19 7. ●8 17.32 23.9 11 20 7. ●0 17.48 23.13 10 21 8.13 18.4 23.17 9 22 8.35 18.19 23.20 8 23 9.10 18.35 23.33 7 24 9.21 18.50 23.25 6 25 9.42 19.5 23.28 5 26 10.4 19.19 23.29 4 27 10.26 19.33 23.30 3 28 10.48 19.47 23.30 2 29 11.9 20.00 23 31 1 30 11.31 20.13 23.31 0 degrees d. m. d. m. d. m. degrees ♓ ♍ ♒ ♌ ♑ ♋ The use of this Table This Table consisteth of 5 Columns the first and last contain the degrees of the Signes that are placed in the head or foot thereof that if you find the sign that the Sun is in at the head or foot of the Table and the degrees in the first or last Column thereof then at the intersection you will have the Suns declination Example Let the Suns place be 20 degrees in Taurus or Scorpio to find the Suns declination you must find Taurus or Scorpio in the head of the Table and 20 degrees on the first Column then guide your eye from ♉ til you come against 20 degr there you shall finde

find how many digits the Moon will be eclipsed The semidiameter of the Moon 16.11 And semidiameter of the Earths shadow 43.39 Both added together is 59.47 From which take the ☽ latitude 34.56 And the remainder wil be 24.51 the parts deficient Then I make my proportional terms as viz. If the Moons diameter 32 min. 22 se will give 12 dig What will the parts deficient give 24 min. 51 se and the work will be thus ☽ Diameter 1942 se 3288249 Digits 720 m. 2859332 Parts deficient 1491 3173477   Agregate 6030809     2742560 Digits eclipsed is 9 13 60 So I conclude in Anno 1663 Feb. 11 day 14 houres 52 min. the quantity of the Moon will be eclipsed 9 digits and 13 60 parts of a digit To find the minutes and time of incidence and the half ●●rriance or continuance of the Moon in the earths shaddow as viz. The sum of the semidiameters of the Moon and earths shaddow being reduced into sec 3587 m. The latitude of the Moon 2093 Agregate 5680 difference 1494 Or thus The aggregate 5680 3754348 The difference 1494 3174390 Sum 6928738 Minutes of incidence 48 m. 33 se half Sum 3464369 Having found 48 m. 33 se the minutes of incidence and half tarriance together Now find only the minutes of half tarriance as viz. The difference of the semidiameter of the Moon and earths shaddow is 1645 se The Moons latitude is 2093 The same being added together the sum is 3738 The sum 3738 3.572639 The difference 448 2.651278 The aggregate 6223917 The sem a●gregate 3131558 Which gives 1294 se or 21 min. 34 se the min. of the Moon● hal tarriance To find the time of incidence and half tarriance together I divide the minutes of incidence and half tarriance together 48 m. 33 se● by the hourly motion of the Moon for the Sun 30 min. and 44 sec and the quotient giveth the time of incidence and half tarriance together to be 1 hour 11 min. 30 sec Then I say that the totall duration of the foresaid eclipse will be 2 houres 12 min. To find how long time the Moon continueth in the earths shaddow In the performance hereof I divide the minutes of the half tarriance 21 m. 34 se by the hourly motion and the quotient will be 31 min. 45 sec the time of her half continuance in the shaddow If you would know the latitude of the Moon at the begining and end of the eclipse You must take the minutes of incidence and half tarriance together and adde thereto the middle motion of the Sun agreeing to the time of incidence and half tarriance the sum whereof take from the true motion of the Moons latitude at the time of the middle of the eclipse and the remainder will be her latitude at the beginning of the eclipse Then do but adde the same to the true motion of her latitude at the time of the middle of the eclipse and the aggregate will be the true latitude at the end of the eclipse This done you may describe the eclipse in a figure in plano The proportion of the bodies of the Sphears one to another The Sun is 9 times greater than Saturn The Sun is 14 times greater than Jupiter The Sun is 2535 times greater than Mars The Sun is 1270 times greater than Venus The Sun is 3705 times greater than Mercury The Sun is 1000 times greater than the Moon The Sun is 196 times greater than the Earth Saturn is ½ times greater than Jupiter Saturn is 286 times greater than Mars Saturn is 152 times greater than Venus Saturn is 418 times greater than Mercury Saturn is 1122 times greater than the Moon Saturn is 12 times greater than the Earth Jupiter is 182 times greater than Mars Jupiter is 84 times greater than Venus Jupiter is 266 times grater than Mercury Jupiter is 714 times greater than the Moon Jupiter is 14 times greater than the Earth Mars is 1½ times greater than Mercury Venus is 2 times greater than Mars Venus is 3 times greater than Mercury Moon is 13 times greater than Mars Moon is 6 times greater than Venus Moon is 19 times greater than Mercury The distance of the Planets amongst themselves and with the Firmament The Earth is distant frō the Firmamēt 49150720 miles Saturn is distant from the Firmament 127864480 miles Jupiter is distant from the Firm. 35425120 miles Mars is distant from the Firmament 47490640 miles The Sun is distant from the Firm. 44720000 miles The Moon is distant from the Firm. 48958080 miles Saturn is distant from Jupiter 23138640 miles Saturn is distant from Mars 29361440 miles Saturn is distant from the Sun 3193352 miles Saturn is distant from the Moon 36171600 miles Jupiter is distant from Mars 7722800 miles Jupiter is distant from the Sun 9294880 miles Jupiter is distant from the Moon 13532960 miles Mars is distant from the Sun 1572080 miles Mars is distant from the Moon 6310160 miles The Sun is distant from the Moon 4238080 miles Courteous Reader IN London in Southwark in Winchester-yard over against St. Mary Over-●hees Church-door is taught by me Arithmetick in whole Numbers and Fractions c. The Principles of Geometry with practice and demonstration and survaying of Lands to measure any superficial or solid content to take the height depth length or breadth of things which being environed with water cannot be approached unto The doctrine of Triangles both Plane and Sphericall with the use of the Signs Tangents Secants and Logarithms a description demonstration and use of Instruments as also the Quadrat Quadrant Plane-scale Secter Theodolite Plane-table Cross-staff horizontal Sphear with the two Globes both Terrestial and Celestial Teaching Navigation with making use of sundry Instruments in fitting the Art of plain Sayling and Mercators projection and to calculate the course and distance of any two places in the World howsoever situated by Trigonometrical calculations Teach Astronomy the working of any Proposition-soever to find or calculate the true time of the Conjunctions and Oppositions of any Planets for any time past present or to come or any Proposition or Question that is prescribed in this Almanack Yours till I cease to be my own THO. JACKSON FINIS

♃ ☽ 24 8 17 18 ♄ 8 52 ♌ 7 26 4 34 27 f ⚹ ♄ ☽ ♊ 7 46 18 19 ♃ 0 6 ♒ 7 25 4 35 28 g   21 12 19 20 ♂ 15 24 ♏ 7 23 4 37 29 a △ ♃ ☽ ♋ 4 28 20 21 ♀ 13 21 ♑ 7 21 4 39 30   17 29 21 22 ☿ 2 57 ♒ 7 20 4 40 31 e ☌ ♄ ☽ ♌ 2 18 22 23 ♄ 8 28 ♌ 7 10 4 42 February hath xxviij dayes Full Moon 2 day at 10 a clock before noon Sun rising Sun setting Last quarter 10 day 2 a clock after noon New Moon 12 day 8 min. past 5 after noon First quarter 23 day 44 min. past 2 after noon MD WD Mutuall aspect ☽ place ☉ pla Planet places M.M H.M. 1 d ⚹ ♂ ♀ ♌ 12 57 23 23 ♄ 8 24 ☊ 7 17 4 43 2 e Candlemas 25 22 24 24 ♃ 1 27 ♒ 7 16 4 44 3 f   ♍ 7 32 25 24 ♂ 18 6 ♏ 7 14 4 46 4 g ☽ ☋ 19 36 26 25 ♀ 20 38 ♑ 7 13 4 47 5 a   ♎ 1 30 27 25 ☿ 3 8 ♒ 7 11 4 49 6 B Septuages 13 20 28 26 ♄ 8 2 ♌ 7 10 4 50 7 c □ ♃ ☽ 25 17 29 26 ♃ 2 35 ♒ 7 8 4 52 8 d □ ♄ ☽ ♏ 6 56 ♓ 27 ♂ 20 13 ♏ 7 6 4 54 9 e ☌ ♂ ☽ 18 53 1 27 ♀ 26 42 ♑ 7 4 4 56 10 f ⚹ ♃ ☽ ♐ 1 4 2 27 ☿ 5 55 ♒ 7 2 4 58 11 g SS ♃ ☉ 13 27 3 28 ♄ 7 40 ♌ 6 59 5 1 12 a ●erm ends 26 14 4 28 ♃ 3 41 ♒ 6 58 5 2 13 B Sexagesima ♑ 9 27 5 28 ♂ 22 14 ♏ 6 56 5 4 14 c Valentine 23 6 6 29 ♀ 2 48 ♒ 6 55 5 5 15 d ☌ ♃ ♀ ♒ 7 12 7 29 ☿ 10 22 ♒ 6 54 5 6 16 e □ ♂ ☽ 21 42 8 29 ♄ 7 19 ♌ 6 53 5 7 17 f ☍ ♄ ♀ ♓ 6 29 9 29 ♃ 4 42 ♒ 6 51 5 9 18 g ☽ ☊ 21 28 10 29 ♂ 24 7 ♏ 6 49 5 11 19 a △ ♄ ☽ ♈ 6 26 11 30 ♀ 8 54 ♒ 6 46 5 14 20 B ●ro●elund 21 22 12 30 ☿ 15 56 ♒ 6 44 5 16 21 c □ ♄ ☽ ♉ 6 5 13 30 ♄ 7 2 ♌ 6 42 5 18 22 d ☍ ♂ ☽ 20 28 14 29 ♃ 5 50 ♒ 6 40 5 20 23 e △ ♀ ☽ ♊ 4 30 15 29 ♂ 25 52 ♏ 6 38 5 22 24 f Matthias 18 12 16 29 ♀ 15 0 ♒ 6 35 5 25 25 g   ♋ 1 32 17 29 ☿ 22 15 ♒ 6 32 5 28 26 a ☍ ♄ ♃ 14 32 18 29 ♄ 6 46 ♌ 6 30 5 30 27 B Quadrages 27 16 19 29 ♃ 6 52 ♒ 6 27 5 33 28 c ☍ ♀ ☽ ♌ 9 48 20 29 ♂ 27 31 ♏ 6 24 5 36 March hath xxxj dayes Full Moon 4 day 4 a clock in morning Sun rising Sun setting Last quarter 12 day 48 min. past 6 in morning New Moon 19 day 36 min. past 2 in morning First quarter 25 day 49 min. past 7 after noon MD WD Mutuall aspect ☽ place ☉ pla Planet places H. M H.M. 1 d David ♌ 22 7 21 28 ♄ 6 37 ♌ 6 22 5 38 2 e Chad ♍ 5 12 22 28 ♃ 7 27 ♒ 6 20 5 40 3 f ☉ eclipsed ♍ 17 32 23 28 ♂ 28 25 ♏ 6 10 5 41 4 g ⚹ ♄ ☽ 28 10 24 28 ♀ 24 47 ♒ 6 16 5 44 5 a ☽ apegeo ♎ 10 1 25 27 ☿ 3 42 ♓ 6 14 5 46 6 B △ ♀ ☽ 21 50 26 27 ♄ 6 25 ♌ 6 12 5 48 7 c □ ♃ ☽ ♏ 3 42 27 26 ♃ 8 27 ♒ 6 9 5 51 8 d □ ♂ ♀ 15 36 28 26 ♂ 29 45 ♏ 6 7 5 53 9 e ⚹ ♃ ☽ 27 36 29 25 ♀ 0 54 ♓ 6 5 5 55 10 f □ ☿ ☽ ♐ 9 47 ♈ 25 ☿ 11 32 ♓ 6 3 5 57 11 g ⚹ ♀ ☽ 22 13 1 24 ♄ 6 14 ♌ 6 0 6 0 12 a ⚹ ☿ ☽ ♑ 4 57 2 23 ♃ 9 22 ♒ 5 58 6 2 13 B Gregorie 18 1 3 23 ♂ 0 52 ♐ 5 57 6 3 14 c Td ♂ ☿ ♒ 1 32 4 22 ♀ 7 1 ♓ 5 56 6 4 15 d △ ☉ ♄ 15 29 5 21 ☿ 20 0 ♓ 5 54 6 6 16 e ☌ ♀ ☽ 29 52 6 20 ♄ 6 8 ♌ 5 52 6 8 17 f ☽ ☊ ♓ 14 38 7 20 ♃ 10 17 ♒ 5 50 6 10 18 g ☽ perigri 29 40 8 19 ♂ 1 47 ♐ 5 48 6 12 19 a ☉ ad ⚹ ♃ ♈ 14 50 9 18 ♀ 13 9 ♓ 5 46 6 14 20 B ⚹ ☉ ♃ ♉ 0 0 10 17 ☿ 29 1 ♓ 5 44 6 16 21 c △ ♂ ☿ 15 1 11 16 ♄ 6 2 ♌ 5 42 6 1● 22 d ☍ ♂ ☽ 29 43 12 15 ♃ 11 9 ♒ 5 40 6 20 23 e △ ♄ ☿ ♊ 14 1 13 14 ♂ 2 29 ♐ 5 39 6 21 24 f □ ☿ ☽ 27 50 14 13 ♀ 19 16 ♓ 5 37 6 23 25 g   ♋ 11 17 15 12 ☿ 8 38 ♈ 5 36 6 24 26 a ☌ ♄ ☉ 24 15 16 11 ♄ 6 1 ♌ 5 3● 6 26 27 B ☍ ♃ ☽ ♌ 6 53 17 10 ♃ 11 57 ♒ 5 3● 6 28 28 c   19 12 18 9 ♂ 2 47 ♐ 5 30 6 3● 29 d Td ♄ ☽ ♍ 1 20 19 8 ♀ 25 23 ♓ 5 28 6 3● 30 e   13 17 20 7 ☿ 18 55 ♈ 5 26 6 34 31 f ☌ ☉ ☿ 25 8 21 6 ♄ 6 1 ♌ 5 24 6 3● Aprill hath xxx dayes Full Moon 2 day 20 min. past 9 after noon Sun rising Sun setting Last quarter 10 day 37 min. past 6 after noon New Moon 17 day 48 min. past 10 before noon First quarter 24 day 53 min. past 8 before noon MD WD Mutuall aspect ☽ place ☉ pla Planet places H M H.M. 1 g ☽ apogeo ♎ 6 58 22 2 ♄ 6 1 ♌ 5 19 6 41 2 a □ ♄ ☽ 18 47 23 1 ♃ 12 52 ♒ 5 18 6 42 3 B Palm sunda● ♏ 39 24 0 ♂ 2 52 ♐ 5 16 6 44 4   Ambro. 12 35 24 59 ♀ 2 44 ♈ 5 14 6 46 5 d ☌ ♂ ☽ 24 37 25 57 ☿ 1 32 ♉ 5 12 6 48 6 e △ ♄ ♀ ♐ 6 47 26 55 ♄ 6 6 ♌ 5 10 6 50 7 f □ ♄ ☿ 19 7 27 53 ♃ 13 34 ♒ 5 7 6 53 8 g △ ☿ ☽ ♑ 1 37 28 51 ♂ 2 24 ♐ 5 4 6 56 9 a   14 21 29 50 ♀ 8 52 ♈ 5 2 6 58 10 B Easter day 27 23 ♉ 48 ☿ 11 48 ♉ 5 0 7 0 11 c ♃ □ ad ☿ ♒ 10 44 1 46 ♄ 6 12 ♌ 4 58 7 2 12 d Julius 24 29 2 45 ♃ 14 15 ♒ 4 57 7 3 13 e ⚹ ☿ ☽ ☊ ♓ 8 37 3 43 ♂ 1 57 ♐ 4 55 7 5 14 f ☽ perigri 23 10 4 42 ♀

14 59 ♈ 4 53 7 7 15 g ☌ ♀ ☽ ♈ 8 1 5 39 ☿ 21 18 ♉ 4 52 7 8 16 a Td ♄ ♀ 23 6 6 37 ♄ 6 22 ♌ 4 5 7 10 17 B □ ♃ ☽ ♉ 8 17 7 35 ♃ 14 50 ♒ 4 48 7 12 18 c ☌ ☿ ☽ 23 22 8 33 ♂ 1 0 ♐ 4 46 7 14 19 d ⚹ ♀ ☽ ♊ 8 13 9 31 ♀ 21 6 ♈ 4 44 7 16 20 e ☍ ♂ ☿ 22 40 10 29 ☿ 29 40 ♉ 4 4● 7 18 21 f Bq ♂ ♀ ♋ 6 41 11 27 ♄ 6 33 ♌ 4 40 7 20 22 g Td ♃ ☿ 20 11 12 25 ♃ 15 22 ♒ 4 39 7 21 23 a George ♌ 3 14 13 23 ♂ 29 50 ♏ 4 37 7 23 24 B Q ♃ ♀ 15 52 14 21 ♀ 27 13 ♈ 4 35 7 25 25 c ●ar● E●a● 28 9 15 19 ☿ 6 25 ♊ 4 3 7 27 26 d ☽ ☋ ♍ 10 11 16 17 ♄ 6 48 ♌ 4 31 7 29 27 e ●erm begins 22 3 17 15 ♃ 15 50 ♒ 4 29 7 31 28 f ☽ apogeo ♎ 3 49 18 13 ♂ 28 20 ♏ 4 27 7 33 29 g △ ♃ ☽ 15 36 19 10 ♀ 3 20 ♉ 4 25 7 35 30 ● ☍ ♀ ☽ 27 28 20 8 ☿ 11 17 ♊ 4 23 7 37 May hath xxxj dayes Full Moon 2 day 12 min. past 1 after noon Sun rising Sun setting Last quarter 10 day 11 min. past 3 before noon New Moon 16 day 38 min. past 6 after noon First quarter 23 day 12 a clock at night MD WD Mutual aspe ☽ place ☉ pla Planet places H.M. H.M. 1 B Phil. Ia ♏ 9 24 21 6 ♄ 7 4 ♌ 4 21 7 39 2 c □ ♄ ♀ 21 29 22 4 ♃ 16 14 ♒ 4 20 7 40 3 d ☍ ☿ ☽ ♐ 3 44 23 1 ♂ 26 39 ♏ 4 19 7 41 4 e □ ♃ ☽ 16 7 23 59 ♀ 9 27 ♉ 4 18 7 42 5 f ☍ ♂ ☉ 28 41 24 57 ☿ 14 20 ♊ 4 17 7 43 6 g △ ♀ ☽ ♑ 11 24 25 54 ♄ 7 24 ♌ 4 16 7 44 7 a ⚹ ♂ ☽ 24 19 26 52 ♃ 16 33 ♒ 4 14 7 46 8 B SS ♀ ☿ ♒ 7 26 27 49 ♂ 24 54 ♏ 4 13 7 47 9 ● □ ♃ ♀ 20 46 28 46 ♀ 15 33 ♉ 4 11 7 49 10 d ⚹ ♀ ☽ ♓ 4 23 29 44 ☿ 15 15 ♊ 4 10 7 50 11 e ☽ ☊ 18 17 ♊ 42 ♄ 7 44 ♌ 4 9 7 51 12 f ⚹ ♀ ☽ ♈ 2 30 1 39 ♃ 16 48 ♒ 4 7 7 53 13 g ☽ perigri 17 4 2 37 ♂ 23 9 ♏ 4 6 7 54 14 a ☍ ♂ ♀ ♉ 1 51 3 34 ♀ 21 40 ♉ 4 5 7 55 15 B Rogation ● 16 44 4 31 ☿ 14 15 ♊ 4 4 7 56 16 c ☌ ☿ ☽ ♊ 1 40 5 29 ♄ 8 8 ♌ 4 2 7 58 17 d Q ♄ ♀ 16 14 6 26 ♃ 16 58 ♒ 4 0 8 0 18 e   ♋ 0 50 7 23 ♂ 21 28 ♏ 3 59 8 1 19 f Ascension 14 54 8 21 ♀ 27 48 ♉ 3 58 8 2 20 g ☌ ♄ ☽ 28 29 9 18 ☿ 11 54 ♊ 3 57 8 3 21 a ☍ ♃ ☽ ♌ 11 35 10 16 ♄ 8 33 ♌ 3 55 8 5 22 ● □ ♀ ☽ 24 15 11 13 ♃ 17 4 ♒ 3 54 8 6 23 c Term ends ♍ 6 34 12 10 ♂ 19 56 ♏ 3 52 8 8 24 d Td ♃ ♀ 18 35 13 7 ♀ 3 55 ♊ 3 51 8 9 25 e ⚹ ♄ ☿ ♎ 0 26 14 4 ☿ 9 14 ♊ 3 50 8 10 26 f Augustine 12 12 15 2 ♄ 8 59 ♌ 3 50 8 10 27 g ☽ apogeo 23 57 16 59 ♃ 17 6 ♒ 3 50 8 10 28 a ⚹ ♄ ♀ ♏ 5 49 17 56 ♂ 18 43 ♏ 3 40 8 10 29 B W●●t ●und 17 50 18 53 ♀ 10 3 ♊ 3 50 8 10 30 c Wigam ♐ 0 5 19 51 ☿ 7 11 ♊ 3 49 8 11 31 d patron 12 29 20 48 ♄ 9 28 ♌ 3 49 8 11 June hath xxx dayes Full Moon 1 day 58. min. past 2 before noon Sun rising Sun setting Last quarter 8 day 34 min. past 9 before noon New Moon 15 day 57 min. past 2 in morning First quarter 22 day at 5 a clock after noon Full Moon 30 day at 5 a clock after noon MD WD Mutual aspe ☽ place ☉ pla Planet places H.M. H.M. 1 e   ♐ 25 9 20 45 ♄ 9 34 ♌ 3 49 8 11 2 f ⚹ ♂ ☽ ♑ 8 2 21 42 ♃ 17 0 ♒ 3 49 8 11 3 g Erasmus 21 5 22 39 ♂ 17 39 ♏ 3 49 8 11 4 a   ♒ 4 19 23 36 ♀ 17 22 ♊ 3 49 8 11 5 B Trinit sud 17 4● 24 33 ☿ 6 44 ♊ 3 48 8 12 6 c   ♓ 1 12 25 30 ♄ 10 5 ♌ 3 48 8 12 7 d ☽ ☊ 14 53 26 27 ♃ 16 51 ♒ 3 48 8 12 8 e ☽ perigri 18 43 27 25 ♂ 17 1 ♏ 3 48 8 12 9 f Bq ♂ ♀ ♈ 12 46 28 22 ♀ 23 31 ♊ 3 47 8 13 10 g Term beg 27 0 29 19 ☿ 8 33 ♊ 3 47 8 13 11 a ☍ ♂ ☽ ♉ 11 25 ♋ 16 10 37 ♌ 3 47 8 13 12 B ⚹ ♄ ☿ 25 54 1 13 ♃ 16 38 ♒ 3 47 8 13 13 c △ ♄ ☽ ♊ 10 26 2 10 ♂ 16 56 ♏ 3 47 8 13 14 d ☌ ♀ ☽ 24 52 3 7 ♀ 0 53 ♋ 3 47 8 13 15 e △ ♂ ☽ ♋ 9 4 4 4 ☿ 13 15 ♊ 3 47 8 13 16 f   22 58 5 1 ♄ 11 10 ♌ 3 48 8 12 17 g ☍ ♃ ☽ ♌ 6 27 5 58 ♃ 16 19 ♒ 3 48 8 12 18 a △ ♃ ☿ 19 32 6 55 ♂ 17 5 ♏ 3 48 8 12 19 B ⚹ ☿ ☽ ♍ 2 13 7 52 ♀ 5 48 ♋ 3 49 8 11 20 c ☽ ☋ 14 33 8 50 ☿ 17 49 ♊ 3 49 8 11 21 d Bq ♃ ☉ 26 35 9 47 ♄ 11 51 ♌ 3 49 8 11 22 e □ ♀ ☽ ♎ 8 28 10 44 ♃ 15 50 ♒ 3 49 8 11 23 f ☽ apogeo 20 13 11 41 ♂ 17 44 ♏ 3 50 8 10 24 g   ♏ 2 0 12 38 ♀ 13 10 ♋ 3 50 8 10 25 a ☌ ♂ ☽ 13 53 3 35 ♀ 26 33 ♊ 3 50 8 10 26   ☌ ☉ ♀ 25 56 14 32 ♄ 12 19 ♌ 3 51 8 9 27 c △ ♄ ☽ ♐ 8 14 15 29 ♃ 15 29 ♒ 3 51 8 9 28 d ☍ ☿ ☽ 20 48 16 26 ♂ 18 25 ♏ 3 52 8 8 29 e   ♑ 3 42 17 23 ♀ 18 5 ♋ 3 53 8 7 30 f △ ☉ ♂ 16 52 18 2● ☿ 3 34 ♊ 3 54 8 6 July hath xxxj dayes Last quarter 7 day 34 min. past 2 after noon Sun rising 〈◊〉 ●ising New Moon 14 day 44 min. past 12 at noon First quart 22 day 36 min. past 10 before noon ●ull moon 30 day 10 min. past 1 before MD WD Mutual aspe ☽ place ☉ pla Planet places H. M