must be as well seen also in the nature of Metals Minerals Gems and Stones Furthermore what cunning he must have in the art of Distillation which follows and resembles the showers and dew of heaven as the daughter the mother I think no man will doubt of it for it yeelds daily very strange inventions and most witty devices and shews how to finde out many things profitable for the use of man As for example to draw out of things dewy vapours unsavoury and gross sents or spirits clots and gummy or slimy humours and that intimate essence which lurks in the inmost bowels of things to fetch it forth and sublimate it that it may be of the greater strength And this he must learn to do not after a rude and homely manner but with knowledge of the causes and reasons thereof He must also know the Mathematical Sciences and especially Astrologie for that shews how the Stars are moved in the heavens and what is the cause of the darkning of the Moon and how the Sun that golden planet measures out the parts of the world and governs it by twelve Signes for by the sundry motions and aspects of the heavens the celestial bodies are very beneficial to the earth and from thence many things receive both active and passive powers and their manifold properties the difficulty of which point long troubled the Platonicks mindes how these inferiour things should receive influence from heaven Moreover he must be skilful in the Opticks that he may know how the sight may be deceived and how the likeness of a vision that is seen in the water may be seen hanging without in the air by the help of certain Glasses of divers fashions and how to make one see that plainly which is a great way off and how to throw fire very far from us upon which sleights the greatest part of the secrecies of Magick doth depend These are the Sciences which Magick takes to her self for servants and helpers and he that knows not these is unworthy to be named a Magician He must be a skilful workman both by natural gifts and also by the practise of his own hands for knowledge without practice and workmanship and practice without knowledge are nothing worth these are so linked together that the one without the other is but vain and to no purpose Some there are so apt for these enterprises even by the gifts of Nature that God may seem to have made them hereunto Neither yet do I speak this as if Art could not perfect any thing for I know that good things may be made better and there are means to remedy and help foward that which lacks perfection First let a man consider and prepare things providently and skilfully and then let him fall to work and do nothing unadvisedly This I thought good to speak of that if at any time the ignorant be deceived herein he may not lay the fault upon us but upon his own unskilfulness for this is the infirmity of the scholar and not of the teacher for if rude and ignorant men shall deal in these matters this Science will be much discredited and those strange effects will be accounted hap-hazard which are most certain and follow their necessary cause If you would have your works appear more wonderful you must not let the cause be known for that is a wonder to us which we see to be done and yet know not the cause of it for he that knows the causes of a thing done doth not so admire the doing of it and nothing is counted unusual and rare but onely so far forth as the causes thereof are not known Aristotle in his books of Handy-trades saith that master-builders frame and make their tools to work with but the principles thereof which move admiration those they conceal A certain man put out a candle and putting it to a stone or a wall lighted it again and this seemed to be a great wonder but when once they perceived that he touched it with brimstone then saith Galen it ceased to seem a wonder A miracle saith Ephesius is dissolved by that wherein it seemed to be a miracle Lastly the professor of this Science must also be rich for if we lack money we shall hardly work in these cases for it is not Philosophy that can make us rich we must first be rich that we may play the Philosophers He must spare for no charges but be prodigal in seeking things out and while he is busie and careful in seeking he must be patient also and think it not much to recal many things neither must he spare for any pains for the secrets of Nature are not revealed to lazie and idle persons Wherefore Epicharmus said very well that men purchase all things at Gods hands by the price of their labour And if the effect of thy work be not answerable to my description thou must know that thy self hast failed in some one point or another for I have set down these things briefly as being made for wrtty and skilful workmen and not for rude and young beginners CHAP. IV. The opinions of the antient Philosophers touching the causes of strange operations and first of the Elements THose effects of Nature which oft-times we behold have so imployed the antient Philosophers minds in the searching forth of their causes that they have taken great pains and yet were much deceived therein insomuch that divers of them have held divers opinions which it shall not be amiss to relate before we proceed any farther The first sort held that all things proceed from the Elements and that these are the first beginnings of things the fire according to Hippasus Metapontinus and Heraclides Ponticus the air according to Diogenes Apolloniates and Anaximenes and the water according to Thales Milesius These therefore they held to be the very original and first seeds of Nature even the Elements simple and pure bodies whereas the Elements that now are be but counterfeits and bastards to them for they are all changed every one of them being more or less medled with one another those say they are the material principles of a natural body and they are moved and altered by continual succession of change and they are so wrapt up together within the huge cope of heaven that they fill up this whole space of the world which is situate beneath the Moon for the fire being the lightest and purest Element hath gotten up aloft and chose it self the highest room which they call the element of fire The next Element to this is the Air which is somwhat more weighty then the fire and it is spread abroad in a large and huge compass and passing through all places doth make mens bodies framable to her temperature and is gathered together sometimes thick into dark clouds sometimes thinner into mists and so is resolved The next to these is the water and then the last and lowest of all which is scraped and compacted together out of the

purer Elements and is called the Earth a thick and grosse substance very solid and by no means to be pierced through so that there is no solid and firm body but hath earth in it as also there is no vacant space but hath air in it This Element of earth is situate in the middle and centre of all and is round beset with all the rest and this only stands still and unmoveable whereas all the rest are carried with a circular motion round about it But Hippon and Critias held that the vapours of the Elements were the first beginnings Parmenides held that their qualities were the principles for all things saith he consist of cold and heat The Physitians hold that all things consist of four qualities hear cold moisture drouth and of their predominancy when they meet together for every Element doth embrace as it were with certain armes his neighbour-Element which is next situate to him and yet they have also contrary and sundry qualities whereby they differ for the wisdom of nature hath framed this workmanship of the world by due and set measure and by a wonderful fitnesse and conveniency of one thing with another for whereas every Element had two qualities wherein it agreed with some and disagreed with other Elements nature hath bestowed such a double quality upon every one as finds in other two her like which she cleaves unto as for example the air and the fire this is hot and dry that is hot and moist now dry and moist are contraries and thereby fire and air disagree but because either of them is hot thereby they are reconciled So the Earth is cold and dry and the water cold and moist so that they disagree in that the one is moist the other dry but yet are reconciled in as much as they are both cold otherwise they could hardly agree Thus the fire by little and little is changed into air because either of them is hot the air into the water because either of them is moist the water into the earth because either of them is cold and the earth into fire because either of them is dry and so they succeed each other after a most provident order From thence also they are turned back again into themselves the order being inverted and so they are made mutually of one another for the change is easie in those that agree in any one common quality as fire and air be easily changed into each other by reason of heat but where either of the qualities are opposite in both as in fire and water there this change is not so easie So then heat cold moisture and drouth are the first and principal qualities in as much as they proceed immediately from the Elements and produce certain secondary effects Now two of them namely heat and cold are active qualities fitter to be doing themselves then to suffer of others the other two namely moisture and drouth are passive not because they are altogether idle but because they follow and are preserved by the other There are certain secondary qualities which attend as it were upon the first and these are said to work in a second sort as to soften to ripen to resolve to make lesse or thinner as when heat works into any mixt body it brings out that which is unpure and so whilst it strives to make it fit for his purpose that it may be more simple the body becometh thereby smaller and thinner so cold doth preserve binde and congeal drouth doth thicken or harden and makes uneven for when there is great store of moisture in the utter parts that which the drouth is not able to consume it hardens and so the utter parts become rugged for that part where the moisture is gone sinking down and the other where it is hardened rising up there must needs be great roughnesse and ruggednesse so moisture doth augment corrupt and for the most part works one thing by it self and another by some accident as by ripening binding expelling and such like it brings forth milk urine monethly flowers and sweat which the Physitians call the third qualities that do so wait upon the second as the second upon the first and sometime they have their operations in some certain parts as to strengthen the head to succour the reins and these some call fourth qualities So then these are the foundations as they call them of all mixt bodies and of all wonderful operations and whatsoever experiments they proved the causes hereof rested as they supposed and were to be found in the Elements and their qualities But Empedocles Agrigentinus not thinking that the Elements were sufficient for this purpose added unto them moreover concord and discord as the causes of generation and corruption There be four principal seeds or beginnings of all things Jupiter that is to say fire Pluto that is to say earth Juno that is to say air and Nestis that is to say water all these sometimes love and concord knits together in one and sometimes discord doth sunder them and make them flie apart This concord and discord said he are found in the Elements by reason of their sundry qualities wherein they agree and disagree yea even in heaven it self as Jupiter and Venus love all Planets save Mars and Saturn Venus agrees with Mars whereas no Planet else agrees with him There is also another disagreement amongst them which ariseth from the oppositions and elevations of their houses for even the twelve signs are both at concord and at discord among themselves as Manilius the Poet hath shewed CHAP. V. That divers operations of Nature proceed from the essential forms of things ALl the Peripatericks and most of the latter Philosophers could not see how all operations should proceed from those causes which the Antients have set down for they find that many things work quite contrary to their qualities and therefore they have imagined that there is some other matter in it and that it is the power and properties of essential formes But now that all things may be made more plain we must consider that it will be a great help unto us for the making and finding out of strange things to know what that is from whence the vertues of any thing do proceed that so we may be able to discern and distinguish one thing from another without confounding all order of truth Whereas one and the same compound yeelds many effects of different kinds as we shall find in the processe of this Book yet every man confesseth that there is but one only original cause therein that produceth all these effects And seeing we are about to open plainly this original cause we must begin a little higher Every natural substance I mean a compound body is composed of matter and form as of her principles neither yet do I exclude the principal qualities of the Elements from doing their part herein for they also concur and make up the number of three principles for when

vessel another vessel full of water all the Summer long which must be stopt toward the bottom with a clout somewhat loosely that the clouts end hanging down into the earthen vessel may bedew the earth that is in it continually by little and little so shall your sprigs or branches bring forth both fruit and leaves and moreover shall take root within the vessel that will shoot out into new twigs After Vintage-time cut off the branches from the Vine a little beneath the earthen vessel and so carry them into a close house that is situate in a dry place where no tempests can come at it as in Wine-cellars or such like Let the windows be netted over that the birds may not come at them In the Winter-time if there come any fair dayes bring them forth into the Sun and when the weather is extream cold keep them in so much the closer and warmer rooms If you preserve them thus until August you shall have old and new grapes both together upon o●e branch and each of them will be quick and well-coloured CHAP. II. How Flowers may be preserved upon their own stalk By the like devices as those were we may also preserve flowers upon their own stalk yet not so easily as fruits may be preserved upon their own Trees Neither yet can they be made to last so long as fruits because fruits are of an harder substance but flowers are soft and tender First therefore we will shew How Roses may be preserved upon their own stalks If you take a Reed or Cane and cleave it when it is green as it grows by the Roses and put in the Rose-bud as it is upon the stalk within the Reed and then binde some paper about the Reed somewhat loosely that it may have as it were a breathing place your Roses will thereby be well preserved upon their stalk as Dydimus reporteth Palladius saith If you shut up your Rose-buds as they grow upon their stalk into a growing Reed which you have cleft for that purpose and close up the Reed again that the cleft do not gape you shall have fresh Roses when you will if you open your Reed again I have tried this device and found it in some sort to be true and answerable to my intendment I took the Rose-buds before they were blown and shut them up into a Reed for the Roses and the Reeds must be planted neer together and the cleft which I had made in the Reed being but slender I bound it up again that it might not stand gaping onely I left a fit passage for the Rose stalk to stand in and so I preserved them a great while The like device I used To preserve Lillies upon their stalks for a long time I cleft the Cane betwixt the joints and put the Lillies into it as they grow upon their stalk before they were blown and so the joint of the Cane closing upon them beneath and the cleft above being stopt with wax the Lillies were thereby long preserved upon their stalk The very same experiment I practised upon Clove-gilliflowers and so I had them growing upon their stalk a great while And whensoever I would use them I brake up their cases wherein they were preserved and so by the comfort and force of the Sun they were blown and opened themselves CHAP. III. How to make Fruit safes or places wherein fruits may conveniently be preserved NOw we will shew how you may preserve fruits when they are taken off from the Trees whereon they grow Wherein because our chiefest care and labour is to keep them from putrefaction therefore that we may so do we must first know the causes of their putrefaction The Philosophers hold that the temperature of the air being of it self exceeding variable by reason of the variety of celestial influences which work upon it is also of that force that it causeth every thing which it cometh at even whatsoever is contained under the cope of the Moon to hasten towards an end and by little and little to decay continually For the air which is apt to search every thing when it lights upon any fruit finds in it a certain natural heat somewhat like to its own heat and presently closes with it and entices as it were the heat of the fruit to come into the air and the fruit it self having a natural coldness as well as heat is very well content to entertain the heat of the circumstant air which exhausteth the own heat of the fruit and devoureth the moisture of it and so the fruit shrinks and withereth and consumes away But man is not of such a dull sense and of such a blockish wit but that he can tell how to prevent these inconveniences and to devise sundry kinds of means whereby the soundnesse of Fruits may be maintained against the harms and dangers both of cold and of heat And first we will speak of Fruit-safes or artificial places whereby the danger of heat may be avoided Then we will shew that there is especial choice to be made of times wherein heat shall be of small force And then we will prescribe the manner of gathering fruits lest happily they might be bruised with handling or falling which if they should it would be their bane and the beginning of their putrefaction And last of all we will teach you how to lay them up in divers and sundry places whereby you may prevent the heat and moisture of the air from doing them any harm First therefore that we may prepare cold and dry places wherein we may lay up such fruits as we would have to last long and so to keep away the extrinsecal heat and moisture we must understand that there are places some general and some particular We will speak of some peculiar places of the world which are excellent good to preserve fruits in Theophrastus saith that some fruits will last the longer because they are laid up in some certain places Wherefore in a certain place of Cappadocia which is called Petra fruits may be preserved fourty years and yet they are all that time fertile and very fit to be sown nay saith he if they be kept threescore years or threescore and ten they will still be very good for meat to be eaten though not so good for seed to be sown The place he reports to be a high place and open for the winds and to stand lower towards the North then to the other three quarters of the world It is reported likewise that fruits are preserved in Media and other high Countries longer and better then in other places But these are the properties of some peculiar places onely But generally for all Fruit-safes it is the judgement and counsel of all the best and learnest Husband-men that they must be so situate that they may have windows towards the North which must lye open in the Spring-time and every fair day that the Northern wind may blow into them But in any case there must

that the souls of the dead did always rest in the grave as the ashes do and that they might not lye in the dark they endeavovred all they could to send out this light that their souls might enjoy light continually Therefore we must think on another experiment and make trial of it But this must be held for a rare and firm principle in Natures shop that the cause of wonders is because there can be no vacuum and the frame of the work will sooner break asunder and all things run to nothing then there can be any such thing Wherefore if a flame were shut up in a glass and all vent-holes stopt close if it could last one moment it would last continually and it were not possible for it to be put out There are many wonders declared in this Book and many more shall be set down that have no other cause But how the flame should be lighted within side this is worth the while to know It must be a liquor or some subtile substance and that will evaporate but little and if then it can be shut up in the glass when the glass is shut it will last always which may easily be performed by burning-glasses fire industry and cunning It cannot be extinguished because the Air can come in nowhere to fill up the emptiness of the Vial The Oyl is always turned into smoke and this being it cannot be dissolved into Air it turns to Oyl and kindleth again and so it will always by course afford fuel for the light You have heard the beginnings now search labour and make trial THE THIRTEENTH BOOK OF Natural Magick Of tempering Steel THE PROEME I Have taught you concering monstrous Fires and before I part from them I shall treat of Iron Mines for Iron is wrought by Fire not that I intend to handle the Art of it but onely to set down some of the choicest Secrets that are no less necessary for the use of men in those things I have spoken of already besides the things I spake of in my Chymical works Of Iron there are made the best and the worst Instruments for the life of man saith Pliny For we use it for works of Husbandry and building of Houses and we use it for Wars and Slaughters not onely hard by but to shoot with Arrows and Darts and Bullets far off For that man might die the sooner he hath made it swift and hath put wings to Iron I shall teach you the divers tempers of Iron and how to make it soft and hard that it shall not onely cut Iron and other the hardest substances but shall engrave the hardest Porphyr and Marble Stones In brief the force of Iron conquers all things CHAP. I. That Iron by mixture may be made harder IT is apparent by most famous and well-known Experience that Iron will grow more hard by being tempered and be made soft also And when I had sought a long time whether it would grow soft or hard by hot cold moist or dry things I found that hot things would make it hard and soft and so would cold and all the other qualities wherefore somthing else must be thought on to hunt out the causes I found that it will grow hard by its contraries and soft by things that are friendly to it and so I came to Sympathy and Antipathy The Ancients thought it was done by some Superstitious Worship and that there was a Chain of Iron by the River Euphrates that was called Zeugma wherewith Alexander the Great had there bound the Bridge and that the links of it that were new made were grown rusty the other links not being so Pliny and others think That this proceeded from some different qualities it may be some juices or Minerals might run underneath that left some qualities whereby Iron might be made hard or soft He saith But the chief difference is in the water that it is oft plunged into when it is red hot The pre-eminence of Iron that is so profitable hath made some places famous here and there as Bilbilis and Turassio in Spain Comum in Italy yet are there no Iron Mynes there But of all the kindes the Seric Iron bears the Garland in the next place the Parthian nor are there any other kindes of Iron tempered of pure Steel for the rest are mingled Justine the Historian reports That in Gallicia of Spain the chiefest matter for Iron is found but the water there is more fortible then the Iron for the tempering with that makes the Iron more sharp and there is no weapon approved amongst them that is not made of the River Bilbilis or tempered with the water of Chalybes And hence are those people that live neer this River called Chalybes and they are held to have the best Iron Yet Strabo saith That the Chalybes were people in Pontus neer the River Thermodon Virgil speaks And the naked Calybes Iron Then as Pliny saith It is commonly made soft with Oyl and hardened by Water It is a custome to quench thin Bars of Iron in Oyl that they may not grow brittle by being quenched in Water Nothing hath put me forward more to seek higher matters then this certain Experiment That Iron may be made so weak and soft by Oyl that it may be wrested and broken with ones hands and by Water it may be made so hard and stubborn that it will cut Iron like Lead CHAP. II. How Iron will wax soft I Shall first say how Iron may grow soft and become tractable so that one may make Steel like Iron and Iron soft as Lead That which is hard grows soft by fat things as I said and without fat matter by the fire onely as Pliny affirm Iron made red hot in the fire unless you beat it hard it corrupts as if he should say Steel grows soft of it self if it be oft made red hot and left to cool of it self in the fire and so will Iron grow softer I can do the same divers wayes That Iron may grow soft Anoynt Iron with Oyl Wax Asafoetida and lure it over with straw and dung and dry it then let it for one night be made red hot in burning coals When it grows cold of it self you shall finde it soft and tractable Or take Brimstone three parts four parts of Potters Earth powdered mingle these with Oyl to make it soft Then cover the Iron in this well and dry it and bury it in burning coals and as I said you may use Tallow and Butter the same way Iron wire red hot if it cool alone it will be so soft and ductible that you may use them like Flax. There are also soft juices of Herbs and fat as Mallons Bean-Pods and such-like that can soften Iron but they must be hot when the Iron is quenched and Juices not distilled Waters for Iron will grow hard in all cold waters and in liquid Oyl CHAP. III. The temper of Iron must be used upon soft Irons I Have said how Iron may