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Alchemy and Alchemical Knowledge in Seventeenth-Century New England
A thesis presented
by
Frederick Kyle Satterstrom
to
The Department of the History of Science in partial fulfillment
for an honors degree in Chemistry & Physics and History & Science
Harvard University Cambridge, Massachusetts
March 2004
i
Abstract and Keywords Abstract
By focusing on Gershom Bulkeley, John Winthrop, Jr., and other practitioners of
alchemy in seventeenth-century New England, I argue that the colonies were home to a
vibrant community of alchemical practitioners for whom alchemy significantly
overlapped with medicine. These learned men drew from a long historical tradition of
alchemical thought, both in the form of scholastic matter theory and also their
contemporaries’ works. Knowledge of alchemy was transmitted from England to the
colonies and back across a complex network of strong and weak personal connections.
Alchemical thought pervaded the intellectual landscape of the seventeenth century, and
an understanding of New England’s alchemical practitioners and their practices will fill a
gap in the current history of alchemy.
Keywords
Alchemy
Gershom Bulkeley
Iatrochemistry
Knowledge transmission
Medicine
New England
Seventeenth century
iii
Acknowledgements
I owe thanks to my advisor Elly Truitt, who is at least as responsible for the
existence of this work as I am; to Bill Newman, for taking the time to meet with me while
in Cambridge and pointing out Gershom Bulkeley as a possible figure of study; to John
Murdoch, for arranging the meeting; to the helpful staff of the Harvard University
Archives; to Peter J. Knapp and the kind librarians at Watkinson Library, Trinity College,
Hartford, Connecticut; and to the staff of the Hartford Medical Society, for letting me use
their manuscript collection and for offering me food.
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Table of Contents
INTRODUCTION .................................................................................................. 1
Historiography ....................................................................................................................................... 3
CHAPTER 1: ALCHEMY IN THE NEW ENGLAND COLONIES ............. 13
Introduction ......................................................................................................................................... 13 Paracelsus and Iatrochemistry ............................................................................................................ 14 John Winthrop ..................................................................................................................................... 17 John Allin ............................................................................................................................................. 19 George Starkey .................................................................................................................................... 21 Gershom Bulkeley ................................................................................................................................ 22 Bulkeley’s Vade Mecum ....................................................................................................................... 27
CHAPTER 2: COLONIAL ALCHEMISTS IN CONTEXT ........................... 35
Introduction ......................................................................................................................................... 35 Physics at Harvard in the Mid-Seventeenth Century ........................................................................... 35 Leonard Hoar, Alchemical Visionary .................................................................................................. 41 Charles Morton and Harvard Curriculum ........................................................................................... 46 Morton’s Compendium Physicae ......................................................................................................... 47
CHAPTER 3: THE TRANSMISSION OF ALCHEMICAL KNOWLEDGE IN THE 17TH CENTURY ..................................................................................... 53
Introduction ......................................................................................................................................... 53 The Formation of Scientific Knowledge............................................................................................... 53 Networks and Intelligencers ................................................................................................................ 57 Intelligencer as Model for the Colonies ............................................................................................... 61 Bulkeley as Important Node ................................................................................................................. 63 Connection to Chauncy ........................................................................................................................ 67 The Chauncy Family ............................................................................................................................ 69
CONCLUSION ..................................................................................................... 71
ANNOTATED BIBLIOGRAPHY ...................................................................... 73
Primary Sources .................................................................................................................................. 73 Secondary Sources ............................................................................................................................... 77
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Introduction
Alchemy is familiar to many through the book Harry Potter and the
Philosopher’s Stone. The story portrays the Stone as a magical item sought by the evil
Lord Voldemort for its capacity to generate unlimited quantities of gold and infinitely
prolong life.1 In this context, similar to its depiction in many other works of popular
culture, alchemy is a dark and mystical practice. Although entertaining as fiction, such a
picture is dangerous – the casual reader may be led to place the whole of alchemical
history under this modern stereotype. The stereotype is a great misconception, for any
attempt to sum up alchemy in one idea, or as one static entity, will necessarily overlook
its rich and nuanced history.
Alchemy was far from static over its lifespan of several millennia. To gain an
understanding of it, we must consider individual time periods. The focus of this work is
seventeenth-century New England, where the practice of alchemy significantly
overlapped with medicine. Examining individual practitioners reveals that alchemy
meant different things even to those practitioners who were in close communication with
one another, depending on which alchemical texts they chose to work from. This
pragmatic character of alchemy, with its focus on the preparation of chemical medicines,
is far different from the magic found in popular stories like Harry Potter.
I have focused on four alchemical practitioners to help illuminate the intellectual
activity of alchemists in the New England colonies. John Winthrop, Jr., spent significant
time in the colonies and was taken quite seriously in alchemical matters. John Allin 1 J. K. Rowling, Harry Potter and the Philosopher’s Stone (London: Bloomsbury, 1997). The ostensibly less knowledgeable American audience received Harry Potter and the Sorcerer’s Stone.
2
exhibited a considerable degree of interest in alchemical medicines, and George Starkey
stands out for his influence on prominent English practitioners of the art. Gershom
Bulkeley, meanwhile, shows that even a colonial doctor in the seeming backwater of
seventeenth-century Connecticut could attain a comprehensive knowledge of alchemical
matters. He felt sufficient mastery of the subject to put forth his own written work of
natural philosophy and chemical preparations. Taken together, these men prove that the
colonies were a vibrant, active community of alchemists who were familiar with current
alchemical literature as well as alchemical practice.
This lively community of alchemists drew from, and fit within, a larger context of
alchemical tradition. During their time at Harvard, men such as Allin, Starkey, and
Bulkeley were exposed via scholastic physics to elements of the same matter theory that
lay beneath seventeenth-century theories of alchemy. The alchemical practice resulting
from such theories was within reach for many private practitioners with their own
chemical libraries and experimental apparatus – although not for Harvard President
Leonard Hoar, whose alchemical vision for the College never came to pass. When
Charles Morton and his natural philosophy arrived in Massachusetts, though, Harvard
students finally attained an explicitly alchemical facet of their education to better ground
them in alchemical tradition.
New England’s community of alchemists was also constantly sharing
information,2 and I posit a model for the transmission of alchemical knowledge in the
seventeenth century. Knowledge came to be accepted through social factors such as
2 Typical notions of alchemical secrecy apply mainly to preventing knowledge from falling into the hands of non-alchemists rather than any prohibition of sharing knowledge with a fellow alchemist. In this way, alchemical knowledge has been likened to trade secrets; see Lawrence M. Principe, “Apparatus and Reproducibility in Alchemy,” in Instruments and Experimentation in the History of Chemistry, ed. Frederic L. Holmes and Trevor H. Levere (Cambridge, MA: MIT Press, 2000), 58.
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one’s class, which was thought to indicate trustworthiness; it was then transmitted
through a complex network of both weak and strong social ties. This network consisted
of hubs of differing sizes, and the men who were the nodes with the most connections
have been termed intelligencers. The Englishman Samuel Hartlib is the prototypical
intelligencer, and I will demonstrate that the term may also be applied to John Winthrop,
Jr., in the colonies. I will further show the complexity and activity of the network by
examining the alchemical ties of Gershom Bulkeley. By corresponding with physicians
and alchemists in the colonies and abroad, and receiving texts from his brother-in-law in
London, he was part of a network which brought him the latest in alchemical knowledge.
Historiography
Examining the approaches past historians have taken when discussing the nature
of alchemy allows one to think about the ways in which these attempts influenced
subsequent – and continue to influence present – alchemical scholarship. Such influences
have been quite strong, especially during the Enlightenment and the later Romantic
reaction against Newtonian science. In dividing and naming these influences and their
impact on alchemical history, I am indebted to the excellent essay by Lawrence M.
Principe and William R. Newman, “Some Problems with the Historiography of
Alchemy,” whose outline of historiographical approaches I have modified only slightly.3
The first important development in the historiography of alchemy stems from the
eighteenth century. Prior to this time, the terms “alchemy” and “chemistry” had been
3 Lawrence M. Principe and William R. Newman, “Some Problems with the Historiography of Alchemy,” in Secrets of Nature: Astrology and Alchemy in Early Modern Europe, ed. Newman and Grafton (Cambridge, MA: MIT Press, 2001), 385-431.
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employed synonymously, and the discipline referred to by both words included the entire
range of an alchemist’s possible actions. During the eighteenth century, however,
Enlightenment writers imposed a gulf between the two fields, making the terms
“alchemy” and “chemistry” distinct.4 These writers restricted the domain of alchemy to
include only those tenets that were being discredited, such as the transmutation of metals,
leaving accepted knowledge and new developments under the blanket of chemistry. In
this manner, writers were able to portray alchemy as “synonymous with gold making and
fraud,”5 a marginalization which they could use as a counterpoint in their attempts to
legitimize the newer aspects of chemistry. Their forcible rhetoric has long led historians
to mistakenly see a distinction between the two disciplines in the seventeenth century or
even before.6
Due to its association with fraud, alchemy came to be grouped together with other
“occult” practices such as magic and witchcraft that had been discredited by the
Enlightenment reason of the eighteenth century. For example, Francis Barrett touted his
1801 work The Magus as a complete system of occult philosophy,7 and he grouped
alchemy with such topics as natural magic, talismans, numerology, and astrology. This
association of alchemy with the occult remains in many popular works to the present
day.8 Juxtaposed thusly, alchemy took on a more mystical air, and it appealed to the
4 For a good review, see William R. Newman and Lawrence M. Principe, “Alchemy vs. Chemistry: The Etymological Origins of a Historiographic Mistake,” Early Science and Medicine 3 (1998): 32-65. 5 Principe and Newman, “Some Problems with the Historiography of Alchemy,” 386. 6 Newman and Principe, “Alchemy vs. Chemistry,” 33. 7 Francis Barrett, The Magus (London: Lackington, Allen, and Co., 1801; repr. Secaucus, NJ: Citadel, 1967), i. 8 For example, Harry Potter. Also, Owen S. Rachleff, The Occult Conceit: A New Look at Astrology, Witchcraft, and Sorcery (Chicago: Cowles, 1971), 90-91, calls alchemy a “stepchild of sorcery” and asserts that its practitioners were merely out to dupe “impoverished aristocrats or greedy kings.” Ronald Pearsall, The Alchemists (London: Weidenfeld and Nicolson, 1976) includes an entire chapter entitled “Dupes and Charlatans.” Even less shy is J. Finley Hurley, Sorcery (Boston: Routledge & Kegan Paul, 1985), 198-204,
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same Romantic audiences that enjoyed practices like Mesmerism, wherein an intangible
fluid-filled space acted as a medium for transmission of gravity and animal magnetism.9
In the hands of such Romantics, alchemy’s apparent mystical side surpassed its chemical
side in attention and importance.
Over the course of the nineteenth century, the occultists generated the influential
“spiritual” interpretation of alchemy. This interpretation, only a step past Barrett or
Mesmerism, holds that alchemical texts speak entirely in metaphors. They are supposed
to actually deal with spiritual processes, expressed in metallurgic terms. Read in this
manner, transmutation of base metal is in fact purification and enlightenment of the soul
of the alchemist. Perhaps the strongest and fullest explication of the spiritual
interpretation belongs to Mary Anne Atwood (1817-1910), whose A Suggestive Inquiry
into the Hermetic Mystery asks rhetorically, “Man then, shall we conclude at length, is
the true laboratory… his life the subject, the grand distillatory, the thing distilled, and
Self-Knowledge to be at the root of all Alchemical tradition?”10 Atwood had grown up
studying occult literature, and she completed her Suggestive Inquiry in 1850.11 At
Atwood’s request, few copies circulated during her lifetime, but the work was published
in 1918. It circulated widely thereafter.
While Atwood introduced the spiritual interpretation to England, Ethan Allen
Hitchcock (1798-1870) introduced a spiritual interpretation of his own to America.
Hitchcock, a general in the United States Army, also believed that “Man is the subject
who likens the Philosopher’s Stone to UFOs, believes in the existence of both, and argues for a small cadre of Adepts who secretly rule the world. 9 Principe and Newman, “Some Problems with the Historiography of Alchemy,” 388. For an interesting work on Mesmerism – which nevertheless takes the view of alchemy as occult pseudoscience – see Robert Darnton, Mesmerism and the End of the Enlightenment in France (Cambridge, MA: Harvard University Press, 1968). 10 Mary Anne Atwood, A Suggestive Inquiry into the Hermetic Mystery (Belfast: William Tait, 1918), 162. 11 Walter L. Wilmshurst, introduction to Atwood, Suggestive Inquiry, 6.
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upon which the Alchemists employ themselves.”12 He published his Alchemy and the
Alchemists in 1857, in which he takes a Christian viewpoint that “the knowledge of God
lies in the nature of man.”13 Hitchcock reasoned that alchemists pursued their art in order
to learn more about God by looking deep inside of themselves, leading them to live good
and moral lives. Though his take differs from Atwood’s, it was also influential,14 and
they share a complete casting aside of alchemical laboratory practice.
The work of Atwood and Hitchcock helped to revive interest in alchemy in the
latter half of the eighteenth century, and it also led subsequent writers to take the occult
interpretation of alchemy as given. One of these writers, Arthur Edward Waite (1857-
1942), exerted an enormous influence on the development twentieth century alchemical
historiography. Waite, author of such works as the Book of Cermonial Magic,15
published his Lives of Alchemystical Philosophers in 1888.16 Although he criticizes
Atwood and Hitchcock for denying all existence of laboratory practice in alchemy, his
title page says that part of his work will give an “account of the spiritual chemistry.”17
The occult, spiritual interpretation of alchemy had become ingrained in the historian’s
approach to the subject.
The psychoanalyst Carl Jung (1875-1961) picked up the spiritual interpretation
and carried it one step farther.18 The Jungian view of alchemy, laid out in his Psychology
12 Ethan Allen Hitchcock, Alchemy and the Alchemists (Boston: Crosby, Nichols, and Company, 1857), 126. 13 Ibid., 31. 14 For example, Hitchcock is cited in R. Swinburne Clymer, Alchemy and the Alchemists (Allentown, PA: The Philosophical Publishing Co., 1907), 27, who says that in Hitchcock’s work “it was proven, as is well known to all students of true Alchemy, that the subject of the Alchemists was Man.” 15 Arthur Edward Waite, Book of Ceremonial Magic (London: 1911; repr. Maple Shade, NJ: Lethe, 2002). The work is an encyclopedia of magical ritual. 16 Arthur Edward Waite, Lives of Alchemystical Philosophers (London: George Redway, 1888). 17 Waite, 3. 18 That is to say, Jung’s views did not come out of a vacuum. See Luther H. Martin, Jr., “A History of the
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and Alchemy,19 holds that the alchemical practitioner projected images from his mind –
or, more specifically, the collective unconscious – onto the matter in his crucible, which
is why alchemical literature includes many of the same images that Jung’s patients
reported seeing in dreams, including kings and dragons. Jung further argued that the
“archetypes of the unconscious can be shown empirically to be the equivalents of
religious dogmas,”20 setting the stage for a later equation of alchemy with religion. As
Newman and Principe point out, Jung contended that very few alchemical recipes made
any alchemical sense, and he also held the self-fulfilling view that any alchemical
treatises which did make sense were not genuine, because alchemy came from the
unconscious, which does not work in a clear fashion.21 However, the idea of a collective
unconscious has been discredited, and in fact alchemical symbolism can be decoded into
rational chemical procedures and recipes whose appearances reflect the somewhat
metaphorical descriptions of them.22
The effects of the Jungian view are lasting and widespread. As an extreme
example, one alchemical scholar took the phrase “This stone is that thing which more
than elsewhere is found in thee” from an alchemical text and translated it to “The Self is
in the unconscious psyche of man as the most powerful manifest operative factor.”23 The
effect of a psychological interpretation is particularly overt in this case, but its effects are
strong elsewhere as well. For example, Betty Jo Teeter Dobbs (1930-1994), a scholar of
Psychological Interpretation of Alchemy,” Ambix 22, no. 1 (March 1975): 10-20. Martin agrees with Jung’s interpretation, and he cites Ethan Allen Hitchcock and the Freudian psychologist Herbert Silberer as two of Jung’s predecessors. 19 C. G. Jung, Psychology and Alchemy, trans. R. F. C. Hull, 2nd ed. (Princeton, NJ: Princeton University Press, 1968). 20 Ibid., 17. 21 Principe and Newman, “Some Problems with the Historiography of Alchemy,” 404. 22 See Principe, “Apparatus and Reproducibility in Alchemy,” 69. 23 Marie-Louise von Franz, “The Idea of the Macro- and Microcosmos in the Light of Jungian Psychology,” Ambix 13, no. 1 (February 1965): 33.
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Isaac Newton, used Jung in an effort to understand seemingly irrational portions of
Newton’s alchemy. She stated that “the insights of twentieth-century analytical
psychology as applied to alchemy by C. G. Jung have come to provide a really promising
approach to the problem [of alchemy], allowing as they do for an understanding of the
many factors in alchemy which are not only obscure but patently irrational.”24 Dobbs
then attempts to differentiate between Isaac Newton’s spiritual alchemy and his rational
chemistry, a dichotomy which is anachronistic when applied to the seventeenth century.
Dobbs is, of course, but one example of Jung’s influence.25
A later explanation of alchemy is the religious interpretation. The groundwork
for this view had been clearly laid by Jung, who compared alchemical symbolism with
religious symbolism, but the view is typified by 1938’s The Forge and the Crucible26 by
Mircea Eliade (1907-1986). Like so many historians of alchemy before him, Eliade was
interested in the occult, but he was even more interested in comparative religion.27 Eliade
searched for, and found, the universal mythological and religious basis for a belief in
alchemy.28 Like Jung, Eliade thought that the alchemist was perfecting himself at the
same time that he perfected his metal, and he drew a line between irrational alchemy and
rational chemistry; unlike Jung, however, Eliade also emphasized mythological ideas
24 Betty Jo Teeter Dobbs, The Foundations of Newton’s Alchemy (Cambridge: Cambridge University Press, 1975), 26. 25 Jung is also invoked to explain alchemical symbolism in popular works such as Allison Coudert, Alchemy: The Philosopher’s Stone (London: Wildwood House, 1980), 148-160, which spends a chapter discussing Jung, the collective unconscious, and “the spiritual and religious aspects which most historians had previously overlooked or rejected.” Jung is also cited in more academically oriented texts such as F. Sherwood Taylor, The Alchemists: Founders of Modern Chemistry (New York: Henry Schuman, 1949), 159, which says that Jung “comes near the truth when he claims that the alchemists, in studying matter symbolically, were also symbolizing their own mental content.” 26 Mircea Eliade, The Forge and the Crucible, trans. Stephen Corrin (New York: Harper, 1962). 27 For example, Mircea Eliade, Occultism, Witchcraft, and Cultural Fashions: Essays in Comparative Religions (Chicago: University of Chicago Press, 1976), 56, which compares alchemy to the spiritual practices of other cultures, such as tantric yoga. 28 A work of the same school of thought, although it does not address alchemy directly, is, for example, Alexander Eliot, The Universal Myths: Heroes, Gods, Tricksters and Others (New York: Penguin, 1976).
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such as vitalism and the sexualization of nature. In this view, matter is seen as alive, and
any alchemical processes are akin to the incubation of the living matter. This vitalism
makes alchemy possible – the redemption of the ensouled matter allows its transmutation,
making the Philosopher’s Stone a symbol for Jesus Christ – and it also makes alchemy
impossible once a chemistry is developed based upon rational mechanism. These views
have led one scholar to summarize Eliade’s interpretation of alchemy as that of a
“mystery religion in which matter had the role of the god.”29 In addition to the views
previously discussed, the religious interpretation of alchemy – although it fails to explain
the diversity and development of alchemical theory over time – remained widely
accepted into the 1970s. Outside academia it remains common even to the present.
This brings me to a discussion of William R. Newman and Lawrence M. Principe,
who represent the most recent historically contextualized scholarship in the history of
alchemy. Newman’s histories emphasize understanding the theoretical framework of the
practitioner in order to properly describe him.30 Principe is an interesting figure in the
history of alchemy because he has PhDs in both organic chemistry and the history of
science, allowing him to undertake actual laboratory procedures in his attempts to
understand alchemical texts. For example, in his essay “Apparatus and Reproducibility
in Alchemy,” he takes specific issue with the spiritual interpretation of alchemy. He
argues that “at least some of the repeated imagery in alchemy arises because several
different alchemists all saw the same experimental results in their attempts to approach
29 Daniel Merkur, “The Study of Spiritual Alchemy: Mysticism, Gold-Making, and Esoteric Hermeneutics,” Ambix 37, no. 1 (March 1990): 39. 30 For example, the medieval matter theory found in William Newman, The Summa Perfectionis of Pseudo-Geber: A Critical Edition, Translation and Study (New York: Brill, 1991) is summarized in and used as a basis for understanding the seventeenth century alchemy covered by William Newman, Gehennical Fire: The Lives of George Starkey, an American Alchemist in the Scientific Revolution (Cambridge, MA: Harvard University Press, 1994).
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the [Philosopher’s] Stone.”31 Through his experimental re-creations of alchemical
recipes, Principe argues that the primary goal of alchemy was actual laboratory practice.
Both Newman and Principe agree that the spiritual interpretation is a romantic
misinterpretation and oversimplification of the history of alchemy. It is true that alchemy
employed many metaphors and had a spiritual component to it, but causing and
understanding chemical change were more important to the alchemist than perfecting his
soul. There is a distinct difference between practicing alchemy for the sake of self-
perfection and performing alchemy with the aim of transmuting metals, while at the same
time allowing that perhaps an impure self could adversely affect the outcome of the
attempted experiments. Yet the difference is too often misinterpreted. This mistake is
particularly egregious when applied to the seventeenth century, for by that time some
practitioners may not have seen a spiritual side at all.32
Many of the aforementioned interpretations of alchemy, especially the religious
interpretation, oversimplify the subject to such an extent that they make alchemy seem as
though it had been a singular, static discipline for two millennia. This is simply not true.
Even though I am familiar with many alchemical interpretations, I would be hard pressed
to answer a question as simple as, “What is alchemy?” I could say that the Greek
concepts of matter and form led logically to the idea that one could transmute base metals
through a purification procedure which replaced the original form with the perfect
essence of gold.33 But I believe that the basic premise of such a question is flawed. How
31 Principe, “Apparatus and Reproducibility in Alchemy,” 68. 32 One of the alchemist George Starkey’s vices, for example, was the drinking problem that led to his early death in 1665. See Newman, Gehennical Fire, 203-208. A man as dedicated to alchemy as Starkey would have cast vice aside if he believed that an impure soul could adversely affect the reactions occurring in his chemical flasks. 33 See the Greek influences of alchemy described in Arthur John Hopkins, Alchemy: Child of Greek Philosophy (New York: Columbia, 1934).
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can the historian reconcile such an oversimplified view of alchemy with practitioners like
Jabir ibn Hayyan, an Islamic alchemist of the 8th-9th century who based his theory on the
names of his substances?34 Indeed, alchemy has meant many different things to many
different people.35 To define alchemy narrowly is to ignore entirely its fascinating
richness.
This thesis, then, is an attempt to execute one of the “variety of focused case
studies”36 that Newman and Principe see as key to the development of a better future
understanding of alchemy. With its unique set of circumstances – on the frontier in an
important time of scientific change – seventeenth-century New England provides a
compelling lens through which to make such a case study. Additionally, Gershom
Bulkeley has not yet received serious treatment by a historian of science; I will use his
work to better illuminate the situation of an alchemist in the colonies. I want to help
provide a nuanced view of alchemy for future scholars, and this can only be done by
embracing the complexity of alchemical history.
34 Syed Nomanul Haq, Names, Natures, and Things: The Alchemist Jabir ibn Hayyan and his Kitab al-Ahjar (Book of Stones), Boston Studies in the Philosophy of Science, ed. Robert S. Cohen (Boston: Kluwer, 1994). 35 For example, I have done previous work comparing and contrasting the meaning of the Philosopher’s Stone between such alchemical practitioners as Roger Bacon (c1214-1292), who saw the Stone as a powerful artificer’s tool, for use in improving the practical aspects of life; Sir George Ripley (1415-1490), who wrote a poem heavy in religious metaphor about the preparation of the Stone; and Nicholas Flamel, the man attributed with making the Stone in Harry Potter, but whose alchemical exploits were actually the product of the imagination of a seventeenth century publisher. 36 Principe and Newman, “Some Problems with the Historiography of Alchemy,” 419.
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Chapter 1: Alchemy in the New England Colonies
Introduction
As I discussed in my introduction, one can too easily hear “alchemy” and think of
a strange-looking recluse practicing a mystical pseudo-science in his darkened laboratory.
Such an image could not be farther from the truth: many learned men were involved in
the pursuit of alchemical knowledge in the New England colonies.1 It is also easy to
think of the colonies as an intellectual backwater, where practical concerns of day-to-day
life ruled out the kinds of intellectual pursuits, such as alchemy, that learned Europeans
had the time to investigate. This, too, is an important myth to dispel, for not only were
many respectable New Englanders practicing alchemy, but the colonies also represented a
lively community of alchemists whose ideas were taken seriously both locally and
abroad. I will demonstrate this by looking at a select group of seventeenth-century
colonial practitioners of alchemy.2 After examining three important colonial alchemists –
1 I have limited my study to those practitioners of alchemy who lived in New England during the intellectual climate of the seventeenth century and who left behind manuscripts, books, or other items which enable their study (i.e., learned, predominantly upper-class white males). Later alchemists will not be covered here, although a few are introduced in Ronald Sterne Wilkinson, “New England’s Last Alchemists,” Ambix 10, no. 3 (October 1962): 128-138. Wilkinson discusses eighteenth century New England alchemists such as Samuel Danforth, Harvard AB 1715, whose studies included Charles Morton’s text on natural philosophy, and who corresponded with Benjamin Franklin about the Philosopher’s Stone in 1773. He also discusses Danforth Jr. (Harvard AB 1758) and Rev. Ezra Stiles (Yale AB 1746, later Yale President). According to the historian Allen G. Debus, the philosophy of these men remained somewhat current; Paracelsian medicine and chemical philosophy existed throughout the 18th century and fueled the call for a more “mystical explanation of nature at the end of the century.” See Debus, “The Paracelsians in 18th Century France,” Ambix 28, no. 1 (March 1981): 50. 2 The scope of this project also forces me to omit the investigation of other likely practitioners of alchemy in the colonies. For example, George Lyman Kittredge has traced the possession of a book on alchemy, De Metallorum Transmutatione... (Hamburg, 1673), from a member of the Stoughton family (Harvard AB 1650) to the Reverend John Danforth of Dorcester (AB 1677) to his son Samuel (AB 1715) to his son Dr. Samuel (AB 1758), who finally gave it to the Boston Athenaeum. See George Lyman Kittredge, 3 February 1904, in George Stirk [Starkey], biographical folder, Harvard University Archives.
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John Winthrop, Jr., John Allin, and George Starkey – the case study of Connecticut’s
Gershom Bulkeley will be my focal point.
Paracelsus and Iatrochemistry
All of the alchemists under consideration in this chapter were physicians. Indeed,
by the seventeenth century, alchemy had become intimately tied to medicine. This
particular form of alchemy – chemistry intended to treat the body – has been termed
“iatrochemistry” by scholars. The beginnings of iatrochemistry are generally traced back
to Paracelsus, and his teachings gained credence, at least in part, from many subsequent
philosophers and doctors. Therefore, before examining New England’s alchemical
practitioners, we shall take a short look at Paracelsus and iatrochemistry in order to
understand the basis of the intertwined natures of alchemy and medicine in the
seventeenth century.
Philippus Aureolus Theophrastus Bombastus von Hohenheim (1493-1541), who
called himself Paracelsus, was born to a Swiss medical practitioner of illegitimate birth
and a bondswoman of the Benedictine abbey at Einsiedeln late in the fifteenth century.
Paracelsus’s father educated him in many subjects, particularly mining, mineralogy, and
natural philosophy. Paracelsus likely studied at universities and might have taken a
medical degree, but he did not agree with the teachings he received there. Contrary to the
Aristotelian natural philosophy of the four elements – air, water, earth, and fire –
espoused by the universities of the time, Paracelsus thought that sulphur, mercury, and
salt were the three ephemeral substances of which all bodies were made. Additionally,
due to his strong distaste for the institutionalized Galenic medicine of the period,
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Paracelsus became known as an iconoclast. In 1527, upon taking a position as municipal
physician and professor of medicine at Basel, he promptly alienated institutional
authorities by vociferously disagreeing with Galenic medicine, introducing a new
syllabus based on his experiences, and burning a copy of Avicenna’s Canon, a symbol of
the scholastic medical establishment. He left Basel after a dispute with a magistrate in
1528 and practiced his own style of medicine until his death.3
Paracelsus took two important steps in his rejection of Galenic medicine: first, he
introduced an alternative concept of disease; and second, he introduced chemical
medicines to the mainstream. As opposed to the accepted Galenic medicine of the time,
which conceived of disease as a whole-body condition caused by humoral imbalance,
Paracelsus taught that disease was caused by external agents – that is, poisonous spiritual
(i.e. quasi-gaseous) essences.4 These essences occupied a particular location in the body
and disrupted the chemical reactions which he thought normally happened there, resulting
in the observed symptoms. More importantly, Paracelsus’s all-encompassing system of
natural philosophy also taught of a macrocosm-microcosm duality between the heavens
and the earth, and this led directly to his application of alchemy to medicine. Metals had
for some time been identified with specific planets in alchemical writings, and once one
viewed the heavens as analogous to the earth, the application of metals to earthly bodies
became a logical step to take. Thus, Paracelsus used chemical compounds to remedy
3 Walter Pagel, Paracelsus, 2nd Ed. (New York: Karger, 1982) gives an overview of Paracelsus’s life, work, and impact. See Peter Dear, Revolutionizing the Sciences: European Knowledge and Its Ambitions, 1500-1700 (Princeton, NJ: Princeton University Press, 2001), 49-52 for additional context. 4 Mary Lindemann, Medicine and Society in Early Modern Europe (Cambridge: Cambridge University Press, 1999), 75-85, provides a good, short introduction to the subject. See also Allen G. Debus, “Paracelsianism and the Diffusion of the Chemical Philosophy in Early Modern Europe,” in Paracelsus: The Man and his Reputation, His Ideas and Their Transformations, ed. Ole Peter Grell (Boston: Brill, 1998), 225-244. For the Galenic medicine just prior to this time period, see Nancy G. Siraisi, Medieval & Early Renaissance Medicine: An Introduction to Knowledge and Practice (Chicago: University of Chicago Press, 1990), especially chapter 4, 78-114, and chapter 5, 115-152.
16
problems with the body’s chemical reactions, and he spurred his followers to do likewise.
Although adopted sporadically and rarely wholly, Paracelsus’s works were very
influential.5 By the seventeenth century, his system of medicine had come to rival that of
Galen. In England, for example, the middle of the seventeenth century witnessed large
amounts of translation and publication of works by both Paracelsus and his intellectual
descendents, such as Jean Baptiste van Helmont (1580-1644), who believed the basic
building block of matter to be water.6 By this time, the animosity between the
Paracelsian and Galenist schools was tangible. The Galenists believed Paracelsus’s ideas
to be incorrect and viewed them as a threat to their professional authority; meanwhile,
anti-Galenic writers advocated chemical therapies, spoke out against the establishment,
and sought reform. Such reform led to the formation of groups such as England’s short-
lived Society of Chymical Physitians,7 which attempted to institutionalize Paracelsian
medicine in order to rival Galenic medicine. It did not survive long, but it serves as a
good example of the competing schools’ struggle for professional supremacy.
However, a middle ground was possible. Although Paracelsus’s outspoken
criticism of Galenic thought caused his ideas to be viewed as a major break from the past,
many scholars have seen his ideas as drawn from Galenic sources. One can, for example,
see his principles of mercury, sulfur, and salt, as analogous to the Galenic ideas of form.8
As one leading historian put it:
5 For example, Paracelsus influenced the cosmology of the astronomer Tycho Brahe. See John Robert Christianson, On Tycho’s Island: Tycho Brahe and His Assistants, 1570-1601 (Cambridge: Cambridge University Press, 2000), 50. 6 P.M. Rattansi, “The Helmontian-Galenist Controversy in Restoration England,” Ambix 12, no. 1 (February 1964): 1-23. For van Helmont, see Walter Pagel, Joan Baptista van Helmont: Reformer of Science and Medicine (Cambridge: Cambridge University Press, 1982). For van Helmont’s matter theory and its importance, see Newman, Gehennical Fire, 110-114. 7 C. Webster, “English Medical Reformers of the Puritan Revolution: A Background to the ‘Society of Chymical Physitians,’” Ambix 14, no. 1 (February 1967): 16-41. 8 Lester S. King, The Philosophy of Medicine (Cambridge, MA: Harvard University Press, 1978), 66.
17
One can surely continue to speak in terms of a conflict between Galenists and Paracelsians – and an understanding of the Chemical Philosophy of the latter is essential for our knowledge of the rise of modern science. However, at the same time there is ample evidence of a contemporary search for a compromise position on the part of major late sixteenth and early seventeenth century authors – a position that would adopt the practical chemistry but reject much of the speculative chemical cosmology and medicine of the Paracelsians.9
Thus the reform-minded Paracelsians and the entrenched Galenists had reached a
compromise, incorporating parts of the new chemical medicine into the existing Galenic
tradition.10 Physicians could simply select the methods from either tradition that seemed
to work best.11 This assimilation of practical chemistry into medicine worked smoothly,
for in the seventeenth century chemistry and pharmacy were basically the same thing – a
boundary between the two disciplines arose only later.12 In this way, New England’s
alchemists of the seventeenth century were able to pick and choose alchemical and
iatrochemical ideas and practices for incorporation into their own repertoire.
John Winthrop
The first major practitioner of alchemy in the colonies was John Winthrop, Jr.
(1606-1676), governor of Connecticut and the son of John Winthrop, the first governor of
the Massachusetts Bay Colony. Born in England, Winthrop the Younger attended Trinity
College, Dublin, but did not receive a degree. His interest in alchemy began around
9 Allen G. Debus, “Buintherius, Libavius and Sennert: The Chemical Compromise in Early Modern Medicine,” in Science, Medicine, and Society in the Renaissance: Essays to honor Walter Pagel, ed. Allen G. Debus (New York: Science History Publications, 1972), Vol. 1, 151-165. 10 Allen G. Debus, The English Paracelsians (New York: F. Watts, 1965), Ch. 2. 11 Allen G. Debus, The Chemical Philosophy: Paracelsian Science and Medicine in the Sixteenth and Seventeenth Centuries (New York: Science History Publications, 1977; repr. New York: Dover, 2002), 201. For a broader discussion of the issues, see the entirety of chapter 3, “The Paracelsian Debates,” 127-204. 12 Jonathan Simon, “The Chemical Revolution and Pharmacy: A Disciplinary Perspective,” Ambix 45, no. 1 (March 1998): 1-13.
18
1630, when he began purchasing chemical books and materials; there is evidence he took
at least some of these with him when he came to Massachusetts in 1631.13 Over the
course of his life, Winthrop collected “the most significant and extensive alchemical
library in colonial America.”14 Winthrop’s library contained some 275 chemical titles,
with an emphasis on writers whose works are Paracelsian and chemical in nature.15 Even
at first glance, then, Winthrop’s extremely large alchemical library shows the seriousness
of his pursuit.
Winthrop’s interest in alchemy did not stop at the level of reading, for he went out
of his way to visit those who could help him understand the art. In 1642, for example,
Winthrop visited Johann Rist (1607-1667), a German poet who had experimented with
alchemy. During the visit Rist tried to convince Winthrop that true philosophical
mercury, believed to be the material of the philosopher’s stone, was prepared from a
more general spirit or essence rather than from normal quicksilver.16 Winthrop continued
his chemical pursuit upon returning to the colonies – by 1651, his correspondence with
fellow colonists dealt noticeably with chemical medicine,17 and his contacts in this arena
included two men whom we shall shortly discuss, George Starkey and Gershom
Bulkeley.18
At the same time that he pursued chemical knowledge, Winthrop also studied
13 Ronald Sterne Wilkinson, “The Alchemical Library of John Winthrop, Jr. (1606-1676) and His Descendents in Colonial America,” Ambix 11, no. 1 (February 1963): 36-7. 14 Ibid., 33. 15 For example, the collection contained 25 titles by Johann Rudolph Glauber and six by Paracelsus himself. For a full list, see Ronald Sterne Wilkinson, “The Alchemical Library of John Winthrop, Jr. (1606-1676) and His Descendents in Colonial America,” Ambix 13, no. 3 (October 1966):139-186. 16 Harold Jantz, “America's First Cosmopolitan,” in Proceedings of the Massachusetts Historical Society, 1972 (Boston: Published by the Society, 1973), Vol. 84, 6-7. 17 Ronald Sterne Wilkinson, “‘Hermes Christianus:’ John Winthrop, Jr. and Chemical Medicine in Seventeenth Century New England,” in Science, Medicine, and Society in the Renaissance: Essays to honor Walter Pagel, ed. Allen G. Debus (New York: Science History Publications, 1972), Vol. 1, 227. 18 Newman, Gehennical Fire, 42.
19
medicine. He employed a wide variety of medicines in his practice, including many
chemical ones, such as saltpeter, antimony, mercury, and iron, and he used alchemical
means to develop his own therapeutic powder which “enjoyed the esteem of some of the
most respected European practitioners.”19 Indeed, Winthrop gained such a reputation that
he has since been described as “New England’s foremost physician.”20 He applied his
alchemy to his medicine, and his medicine earned him fame as a result –testimony to the
significant contribution of alchemy to medicine in the seventeenth century.
John Allin
John Allin (1623-after 1686)21 is our first example of a Harvard graduate who
became interested in alchemy and medicine. Allin came to America from England in
1637 and settled in Dedham, Massachusetts. After receiving his AB from Harvard in
1643, he returned to England, although the exact date is unknown. After spending almost
a decade as the vicar of Rye in Sussex, he went to London to study medicine in 1662.
The chemical aspects of it clearly became important to him, for in 1667 he received an
offer to work in a private chemical laboratory at Oxford, under the charge of Robert
Boyle.22 He returned to America to be a minister in 1680, and he died a few years later.
The letters Allin left behind attest to a deep interest in iatrochemical matters.
Many of them discuss the plague and alchemy in the same breath. For example, Allin’s
letter to Philip Fryth of September 7, 1665, says, “The increasing sickness hath now
19 Robert C. Black III, The Younger John Winthrop (New York: Columbia University Press, 1966), 169-170. 20 Wilkinson, “Hermes Christianus,” 221. 21 For a biographical sketch, see John Langdon Sibley, Biographical Sketches of Graduates of Harvard University (Cambridge, MA: Charles William Sever, 1873), Vol. 1, 93-101. 22 Ibid., 96.
20
drawne very nigh mee... If I live I hope to have some materia prima from you.”23 We
can see how important alchemical pursuits have become to Allin: if he lives through the
night, his next thoughts are of obtaining special alchemical matter to further his medical
treatment. Indeed, the scholar William Newman believes that Allin’s materia prima is
the starting point for the elixir of life.24 To wit, in 1665 Allin gave his friend Samuel
Jeake a book that he had written about the uses of such an elixir.25 Through his letters we
see Allin involved in an almost frantic search for the proper preparation of materia
prima; his letter to Jeake on November 2, 1665, reads, ““My head aketh at ye present.
Ye Lord fitt mee for what hee intends toward mee. Remember prima materia.”26
Another of Allin’s letters to Jeake bears witness to his belief in the medicinal
properties of gold:
Friend get a piece of angell gold, if you can of Eliz. coine (yt is ye best), wch is phylosophicall gold, and keepe it allways in yor mouth when you walke out or any sicke persons come to you: you will find strange effects of it for good in freedome of breathing, &c. as I have done; if you lye wth it in your mouth wth out yor teeth, as I doe, viz. in one side betweene your cheke and gumms, and so turning it sometimes on one side, sometimes on ye other.27
Such a belief in the healing power of gold stems from the alchemical idea of gold as a
perfect metal with a perfect essence; in a manner of action analogous to that of the elixir
of life, its perfect essence would be absorbed by the body, where the essence would then
correct the putrefactions of the body. Allin was clearly a man for whom alchemy is
central to life, and for whom alchemical ideas and medical ideas overlap significantly.
23 Ibid., 94. 24 Newman, Gehennical Fire, 47. 25 Ibid., 47. 26 Sibley, 95. This is not even the only letter given by Sibley which reads similarly with respect to Allin’s concern for materia prima. 27 Ibid., 95.
21
George Starkey
George Starkey (1628-1665) is perhaps the most well-known of all American
alchemists, due largely to the excellent scholarship of William Newman. Prior to
Newman’s work, much debate surrounded the identity of the true author of the
seventeenth-century alchemical treatises penned by Eirenaeus Philalethes.28 The texts
were held in high regard by famous alchemical practitioners and natural philosophers; for
example, Philalethes provided the basis for the matter theory behind Isaac Newton’s
alchemy29 and has been ranked among his “favorite alchemical writers.”30 Thanks to a
close textual and theoretical analysis of the works by Philalethes and Starkey, however,
Newman has conclusively proved Starkey to be the author.31
Starkey, born in Bermuda in 1628, came to Harvard in 1643, where he lived with
John Allin.32 Along with a fellow member of the class of 1646, John Alcocke,33 Starkey
was likely introduced to alchemy in 1644 by the Charlestown physician Richard
Palgrave.34 While Starkey reports that Alcocke found alchemy too tedious to pursue,
Alcocke did marry Palgrave’s daughter and establish a medical practice of his own in
Roxbury, as did his son, and the two left behind an extensive library of medical and
28 See, for example, Ronald Sterne Wilkinson, “Letter to the Editor on the Identity of ‘Eirenaeus Philalethes,’” Ambix 19, no. 3 (November 1972): 204-208 and Wilkinson, “Some Bibliographical Puzzles Concerning George Starkey,” Ambix 20, no. 3 (November 1973): 235-244, both of which discuss Starkey’s likely authorship and Winthrop’s unlikeliness, given that the tone of their correspondence seemed to indicate that Starkey considered himself an Adept while Winthrop seemed to still be searching for knowledge. See also William Newman, “Prophecy and Alchemy: The Origin of Eirenaeus Philalethes,” Ambix 37, no. 3 (November 1990): 97-115, which establishes Starkey as Eirenaeus Philalethes. 29 William Newman, “The Background to Newton’s Chymistry,” in The Cambridge Companion to Newton, ed. I. B. Cohen and George E. Smith (Cambridge: Cambridge University Press, 2002), 358-369. 30 Dobbs, The Foundations of Newton’s Alchemy, 67. 31 Newman, Gehennical Fire, is the most complete explication. 32 Ibid., 15-18. 33 Sibley, 125. 34 Newman, Gehennical Fire, 48.
22
chemical books.35 Starkey, meanwhile, traveled to England, where he traded recipes and
texts with people such as Samuel Hartlib and Robert Boyle, working on alchemy and
chemical medicaments while fighting debt and drinking. So influential was Starkey that
he acted “as the teacher of Robert Boyle himself”36 and was possibly the main impetus
for Boyle’s interest in chemistry at all.37 Thus, even before it was known that Starkey
wrote the Philalethes tracts, it was still apparent that his ideas were taken quite seriously
by English alchemical practitioners. In Starkey, we see the high level of intellectual
influence afforded an alchemist from the New England colonies.38
Gershom Bulkeley
Although Gershom Bulkeley does not provide us with intellectual authority in the
same sense as Starkey, who influenced the biggest scientific names of his era, we do see
it in his willingness to interact with and question the alchemical texts he read. Born in
Massachusetts in 1636, Bulkeley attended Harvard, taking his bachelor’s degree in 1655
and master’s in 1658. Following three years as a tutor, he became minister of the church
of New London, Connecticut. Six years later, he moved to become the pastor of
Wethersfield, Connecticut. He likely had been dabbling with medicine, though, for when
King Philip’s War broke out in 1675, he became an army surgeon. By 1677, he had quit
the ministry in order to focus full-time on his medicine.39 Indeed, medicine must have
35 Sibley, 125. 36 Newman, Gehennical Fire, 53. 37 William Newman, personal conversation, 23 November 2003. 38 Ronald Sterne Wilkinson, “George Starkey, Physician and Alchemist,” Ambix 11, no. 3 (October 1963): 121-152. 39 This information in this paragraph is drawn from Thomas W. Jodziewicz, “A Stranger in the Land: Gershom Bulkeley of Connecticut,” Transactions of the American Philosophical Society, 1988 (The American Philosophical Society: Independence Square, Philadelphia, 1988), Vol. 78, Part 2, 6-14. This is
23
exerted quite a pull on Gershom Bulkeley, already middle-aged, to draw him away from
following in the footsteps of his father and start him down a new career path. Bulkeley’s
development as an iatrochemical physician is evident in medical manuscripts currently
held at the Meczner Museum of the Hartford Medical Society and also the Watkinson
Library at Trinity College, both in Hartford, Connecticut. From these sources, it is
apparent that Bulkeley both surrounded himself with and came to feel control of the
alchemy of the seventeenth century.
The earliest manuscript in the Hartford Medical Society collection dates from
1661-2.40 At this time, Bulkeley had just left Harvard for his position in the ministry of
New London. The manuscript consists primarily of theological notes, but also reveals an
interest in iatrochemistry: it contains what appears to be a transcribed Latin medical
encyclopedia of ailments and their cures, many of which involve metals and minerals
such as mercury and antimony. The usage of symbols to represent common chemicals
indicates that by this time Bulkeley was familiar with basic chemical terminology. If he
were not already familiar with the Paracelsian and influential thinker van Helmont,
whose water-based matter theory played an important role in Starkey’s Philalethean
explanation of transmutation,41 the manuscript’s frequent citations of him would serve as
a de facto introduction. Bulkeley had thus begun investigating iatrochemistry by, at
latest, the beginning of the 1660s.
By 1673, Bulkeley’s interest in medicine was growing.42 He now had a Latin
the only scholarly examination of Gershom Bulkeley, and it focuses mainly on his political views. 40 Harftord Medical Society (HMS) Manuscript (MSS) 8. 41 William R. Newman, “The Corpuscular Transmutational Theory of Eirenaeus Philalethes,” in Alchemy and Chemistry in the 16th and 17th Centuries, ed. Piyo Rattansi and Antonio Clericuzio (Boston: Kluwer, 1994), 169-170. 42 HMS MSS 16. Dated on 313. The given publishing date of the book is 1660.
24
transcription of a book which lists remedies for ailments such as diarrhea. Chemicals are
absent from many of these remedies; for example, one cures dysentery by sitting on a
mesh chair over ginger burning on embers.43 Others do involve chemicals, however, and
they seem to assume a familiarity with them: the narrator includes one story where he
claims to have tasted a remedy used by a Bohemian doctor and concluded from the
taste’s similarity to vitriol that vitriol – likely some form of sulfuric acid and metal
sulfate – must be the principal ingredient. Such a familiarity with even the taste of
chemicals and metallic compounds indicates familiarity with alchemy. This text also
includes the earliest instance of Robert Boyle’s name being cited in one of the Bulkeley
manuscripts, showing Bulkeley’s growing familiarity and connection with the European
intellectual forefront of chemistry.
The beginnings of Bulkeley’s chemical practice can be placed at least as early as
the following decade. His first obvious chemical log is dated 1679, and it contains items
such as a recipe for salt of tartar interspersed with other, more everyday observations
such as the 1680 entry “May 2. The young black cow calved.”44 His chemical practice
must have been growing in importance, because a few years later, Gershom’s chemical
interests spill over into an invoice of goods bought of Mr. Thomas Bulkeley on July 3,
1684. The invoice list and other expense accounts are merged seamlessly with Latin
chemical texts, sometimes even squished together on the same page.45 While this may
speak to a seventeenth-century mindset of paper as precious and not to be wasted,
Bulkeley’s manuscripts tended not to run together in this way. I believe that, in
Bulkeley’s case, it also reveals the degree of his involvement with iatrochemistry: he was
43 Ibid., 357. 44 HMS MSS 4, 1-3. 45 HMS MSS 15, 37.
25
willing to take chemical notes on whatever materials were available to him at the time.
By the end of the seventeenth century, Bulkeley appears to have been fully
immersed in chemical literature. In a transcription of a Latin work dated June 4, 1694,
we find a complete volume in Bulkeley’s handwriting, entitled Chemica Rationali,
Collecta.46 The volume is very chemical: the first chapters are “Of tinchers and elixirs,”
“Of the calcinations, and of metals,” “Of antimony,” “Of mercury,” and so forth. By the
end of the book, the chemical knowledge has been put to use in medicine, covering
subjects such as “The general way of preparing pills, extracts, etc.” The book includes a
recipe for potable gold, which, like in the case of John Allin, people sought because they
believed that the purifying essence of gold might lead to a universal medicine. The
recipe calls for the alchemist to dissolve gold in the solvent Aqua Regis, “digest for a
night,” distill off to purify the gold, and keep the gold overnight in alcohol of wine. The
result should be a tincture of gold. At this point, Bulkeley demonstrates his comfort with,
and mastery of, the chemical processes under discussion, for he inserts his opinion that
the recipe is not sufficient: “very confident I am that bare solution in Aq. Regis and the
abstraction of the menstruum [i.e. solvent] is not sufficient to make it [gold] give its
tincture in the plain alcohol of wine.”47 Here, thirty years after the earliest indications of
his chemical studies, Bulkeley feels a full command of the chemical literature of his day.
He can select from the literature that which best fits into or further develops his
alchemical practice.
Bulkeley is willing to question alchemical literature on several other occasions as
well. For example, after a discussion of how to make universal medicine through
46 HMS MSS 17. 47 Ibid., 34.
26
chemical operations such as distillation and making a tincture with gold and quicksilver,
a related step is labeled “The Key of Helmont and Lully.” Having followed the
procedure to this point and believing the Key superfluous, Bulkeley inserts, “But what
serves the key for?”48 Elsewhere, after a recipe entitled “A Short and Cleane Description
of the Great Philosophicke Stone,” Bulkeley shows that he is familiar with the relevant
literature on this age-old aim of alchemy as he notes that although this is but
“Rupeseissa’s Liber Lucis epitomized,” he will nonetheless transcribe the whole thing.49
Finally, at the end of a transcribed recipe of a menstruum for potable gold, Bulkeley says,
“I doubt this processe is but imperfect: for containing pure [alcohol] and pure [urine], [it]
will coagulate, unlesse it be the spirit of unputrified urina.”50 Bulkeley seems to be
familiar with not only the literature of the period but alchemical laboratory work as well.
In his picking and choosing, he discards that which does not fit with his experience.
Bulkeley’s command of alchemy is no doubt due to the large collection of
alchemical literature he amassed.51 His collection includes transcriptions in his own hand
of a work of “Chymicall Physicke”52 and a Latin chemical text, transcribed in 1695, in
which Bulkeley made marginal notes pointing out interesting ideas such as potable
48 HMS MSS 9, 107-109. 49 HMS MSS 18, 215. 50 HMS MSS 7, 294. 51 It would be redundant to address every chemical work in Bulkeley’s possession. To give a feel for what exists in the Hartford Medical Society’s collection, however, I should state that Bulkeley also has transcriptions of a large book concerning medicine and alchemy (HMS MSS 21), a medical and chemical notebook (HMS MSS 14), a medical encyclopedia and recipe book (HMS MSS 6), a medical encyclopedia (HMS MSS 1), a Latin pharmacopoeia (HMS MSS 22), a collection of various pages from a lost chemical book that appears to be the collected works of van Helmont (HMS MSS 10). He also has a small notepad of medical and chemical observations in thirty-four sections, with subjects including “the griffin and its water,” “Spirit of opium,” and recipes such as the making of a medicine by grinding together mercury and sulphur (HMS MSS 23), as well as a transcription of “Fundamental grounds of the Chymicall Art, rationally staked and demonstrated by various examples in distillation, rectification and exaltation of vinous spirits, tinchers, oils, salts,” etc. “by W. Y.worth Spagyriche, Physician in both medicines and Philosopher by the fire” (HMS MSS 19, 89). I believe “both medicines” refers to Galenic and Paracelsian; the author thus represents a compromise position. 52 Transcription dated July 26, 1694. HMS MSS 17, 376. The given publishing date of the book is 1679.
27
gold,53 as well as preparations of mercury and antimony compounds.54 He also owned
“The Family Physician...” by George Hartman, which discusses all manner of remedies,
such as chemical pills and powders, for a range of ailments from toothaches to epilepsy.
The remedies often combine household ingredients with metals – for example, it gives a
drink to ward off melancholy made of orange juice, apple juice, wine, and steel filings.55
Amongst the manuscripts at Trinity College,56 one finds a transcription, dated July 16,
1699, of “Arcana Philosophia, or Chymicall Secrets containing the noted and usefull
Chymicall medicine of Dr. Will and Rich. Russell,” which summarizes the creation and
use of six different medicinal, metallic substances. Together, these works all contribute
to the vast amount of seventeenth-century alchemy at Gershom Bulkeley’s fingertips.
Bulkeley’s Vade Mecum
Bulkeley must have considered himself something of a master of medicine and
alchemy, for in 1705, when his grandson Richard Treat was eleven years old and
considering the life of a doctor, Gershom sat down and penned a book telling young
Richard everything he would need to know. Bulkeley called this book Vade Mecum,
which literally translates to “Go With Me” and was also used for titles of other
indispensable medical reference books.57 The Vade Mecum is the only extant chemical
53 HMS MSS 18, 10. Transcription dated 1695 on page 128. 54 Ibid., 11. 55 HMS MSS 24. 56 Gershom Bulkeley Collection, Watkinson Library, Trinity College, Hartford, Connecticut. The collection includes the works mentioned in this paper as well as two tiny books with exquisite Latin handwriting (likely taken by Bulkeley when on medical calls), a humoral book on fevers, a medical account book, four pages of some sort of medical log, and a tall, small Latin medical book with metal clasps. 57 Jodziewicz, 20. The Vade Mecum is found in the Gershom Bulkeley Collection, Watkinson Library, Trinity College, Hartford, Connecticut. The name in this case seems to be figurative or conventional, for Bulkeley warns Treat to keep the book in a safe place and not to let others see it.
28
work of which Bulkeley was definitively the author, and it is thus very important to our
present examination. In it, he demonstrates the intellectual depth of colonial alchemy by
showing that he has mastered and can converse about a broad range of alchemical topics,
including alchemical practice.
Bulkeley begins with the basics – the Vade Mecum begins with a Preface that
discusses the groundings of medical philosophy. He explains, “Health is the natural
integrity of the body in all its parts and powers,” and goes on to say, “The seven natural
things (usually so called) are these 1. The elements. 2. The parts of the body [members].
3. The humors. 4. The complexions. 5. The powers of the facultys. 6. The operations.
7. The spirits.”58 However, Bulkeley does not accept what he reads or is taught without
adding his own thoughts to it – he collapses the humors, members, and spirits into one
category, and rejects the complexions altogether. This makes four from the original
seven. Next, “adding the regions of the body, I make five in all.”59
Bulkeley then describes the chemical digestions that occur in different parts of the
body. He explains that “the schools make or reckon 3 digestions, and accordingly divide
the body into 3 regions.”60 In this system, the first region is the stomach, where food is
turned into chyle, and the “guts,” where the thinner alimentary part is absorbed,
continuing to the liver.61 The second digestion is “sanguification, performed in the
liver... the thicker alimentary part is made into blood”62 which is then transmitted to the
vena cava. We sense his opinion of this system when he writes that the second region
also contains “(and I mistake you not) the urinary vessels and passages… and why not...”
58 Vade Mecum, 1. 59 Ibid., 1. 60 Ibid., 3. 61 Ibid., 4. 62 Ibid., 4.
29
and he goes on to mock it further. Next, the third digestion, or region, “is the
nourishment of all the solid parts of the body... The third region of the body this is and
contains all the solid parts of the body (limbs, bowels, vessels, etc.).”63 Importantly,
Bulkeley repeats “according to them” several times throughout his explication,
demonstrating familiarity with the iatrochemistry taught at the time, but simultaneously
placing himself on a higher plane of knowledge by not fully approving of it.
What, then, does Bulkeley agree with? The easy answer is the Paracelsian
iatrochemistry of van Helmont. Bulkeley cites van Helmont, saying that there are in fact
six digestions, not three, which better distinguish the regions of the body. “The first
digestion (says he) is performed in the stomach, by a ferment inspired from the spleen,
whereby the food in the stomach is transformed into a transparent and acid chyle…and so
the first region contains the stomach and spleen, and no more.”64 However, we still see
Bulkeley hesitating to accept someone else’s idea without modifying it himself. Of van
Helmont, he writes,
the second digestion is (according to him) performed in the duodenum and the other small guts, by a ferment inspired from the gall, whereby the acid chyle or liquor of the stomach is transformed into a salt liquor... and so the second region contains the small guts and the gall.65
Once more, Bulkeley has set up a future modification by adding “according to him.” He
then quickly goes through the remaining digestions: “the third digestion is cruorification,
or the making of the venal blood (which he calls cruor)... By a ferment inspired from the
liver;”66 like before, this region includes the liver and vena cava. The fourth digestion is
“sanguinification,” where the “red venall blood is attenuated into the yellow and
63 Ibid., 5. 64 Ibid., 5. 65 Ibid., 5-6. 66 Ibid., 6.
30
sipiritous arteriall blood.” This takes place in the heart and its arteries. The fifth
digestion “attenuates the arteriall blood into vital spirit,” and it also occurs in the heart
and its arteries.67
Now, Bulkeley shows that the authority whose opinion he ultimately trusts can
only be himself. He interjects, “I think his [van Helmont’s] fourth and fifth digestions
and regions are but one and the same: for the venall blood is attenuated into arteriall
blood, and the arteriall blood ... Is attenuated into vitall spirit in the same shop.”68 The
sixth digestion, he continues, is the nourishment and growth of every solid part. This
happens when the blood is “transmuted”69 into the secondary humor, or alimentary juice,
and is assimilated into the parts. Thus Bulkeley affirms the five regions (van Helmont’s
with a compressed fourth and fifth) that he sees in the body. Throughout, he has felt a
mastery of the material and a willingness to use his experience and opinions to question
what he reads.
He then continues the natural philosophy background with authority. Bulkeley
gives the complexions – e.g. Sanguine, hot and moist – although he also states that
“these… as built upon the aforesaid fictitious humors, are a figment and vanish with
them.”70 He lists external medicaments and applications: baths, lotions, plasters, blood
letting, scarification, leaches, and so on, and he discusses naturals, nonnaturals, and
contranaturals.71 He also lets the young doctor know that some people believe in
astrology, either that the moon can influence different parts of the body depending on
67 Ibid., 6. 68 Ibid., 6-7. 69 Ibid., 7. A great alchemical metaphor, here applied to bodily processes, reiterates the close relation of alchemy and medicine in this period. 70 Ibid., 7. 71 Ibid., 8-11. In Galenic medicine, generally speaking, the ‘naturals’ were such things as the elements, body parts, and bodily fluids; the ‘non-naturals’ were therapeutic measures such as air, food, and drink; and the ‘contra-naturals’ were such things as disease, its causes, or its symptoms.
31
what sign of the zodiac it is in, or that diseases take different courses depending on what
day of the month they start. However, in each case Bulkeley flexes his intellectual
muscle by casting the belief aside.72 He feels the power to decide what is and is not
valid.
Bulkeley also demonstrates that he has spent many hours in the laboratory, as he
is able to provide large amounts of practical advice for laboratory work. For instance, he
has much to say of laboratory equipment. He gives a recipe for joining chemical vessels
together; he cautions against breaking hot vessels by the touch of cold hands, lest you
lose “your vessel and work;” he recommends the coating of vessels with clay to make
them stronger; and he says one can stop cracks in glass or stone vessels by putting a thick
oil into the crack – for this last task he says he has also used quicklime and egg whites in
water. In each case, Bulkeley gives detailed instructions, even down to naming the
number of rags one should have at hand.73 Furthermore, he cautions against fumes, and
he specifically names “fumes of antimony, mercury, and especially of mercury sublimate
and arsenick” as dangerous. He also tells the young doctor to label his chemicals and
keep the medicines away from children, “especially such dangerous drugs as mercury,
mercury sublimate... whereby they may kill themselves presently.”74 The overwhelming
impression given by the Vade Mecum is one of a skilled alchemist relating the wisdom of
his years, not of a solely book-learned man relating what he has read.
Bulkeley continues giving this impression as he spells out his chemical recipes –
and they are truly voluminous. First, he discusses the preparation of substances such as
72 For example, with the he makes fun of another doctor’s chart of what will happen if one falls ill on a given day by pointing out that the chart going from 1 to 30 does not seem to account for the months’ variation in length. Vade Mecum, 13. 73 Ibid., 23-25. 74 Ibid., 25-26.
32
acids which play an important role in subsequent recipes. For example, he provides a
recipe for aqua fortis, saying that it dissolves all metals but gold and tin, as well as a
recipe for aqua regis, which he says dissolves gold and antimony.75 Herbs and other non-
chemical substances do not appear for almost 100 pages, and even then only in the
context of chemical preparations, ordered by recipe type – i.e. organized into pills,
powders, and so on. Throughout, he shows comprehensive knowledge; in one typical
recipe, involving arsenic, saltpeter, sulphur, and alcohol for “Paracelsus’s Balsamus
Fuliginis,”76 he cites numerous authorities, such as Glauber,77 Boyle, van Helmont, and
Sala.78 In this instance, he says, “I have not yet fully experienced this process,” but tells
his grandson that “when I have I may give you notice of it.”79 He does not want to write
about preparations he has not tried himself.
Thus, Bulkeley consistently shows that he has first-hand knowledge of many of
the recipes he relates. For example, of pills made from silver, he states, “I have divers
times made these pills according to this prescript of Mr. Boyle, and found them
excellent,” but he has “since found another way of making them, I think, much better.”80
His recipe is typical of those in the book, as it involves the alloying and purifying of
metals in an aqueous environment – Bulkeley instructs the young doctor to dissolve silver
in aqua fortis and add copper plates; the silver will adhere to the copper. Next, when
shaken, the silver will fall to bottom of the container, and more silver will come out of
solution to adhere to the copper. In this manner one may purify silver for the pills.
75 Ibid., 29-35. 76 Ibid., 41. 77 Ibid., 42. 78 Ibid., 47. 79 Ibid., 44. 80 Ibid., 163-164.
35
Chapter 2: Colonial Alchemists in Context
Introduction
Seventeenth-century New England was home to a vibrant community of
practicing alchemists who also participated in a larger tradition of alchemical knowledge.
Three of the alchemists under consideration graduated from Harvard College, and even
though alchemy was not a formal part of the Harvard curriculum, it was nevertheless
present via the influence that alchemical matter theory played on the development of
scholastic physics from the Middle Ages to the seventeenth century. Alchemical views
could then be adopted by combining university matter theory with specifically alchemical
works, such as those cited in Gershom Bulkeley’s manuscripts; the story of Leonard Hoar
will demonstrate that some people at Harvard were thinking about alchemy in very
serious ways. Finally, in the 1680s Harvard curriculum did change, as the arrival of
Charles Morton’s matter theory brought alchemy into the realm of a Harvard education.
Throughout the century, the alchemy of colonial New England had firm intellectual roots.
Physics at Harvard in the Mid-Seventeenth Century
Harvard’s curriculum was based on the classical teachings of English schools,1
and it therefore contained only small amounts of natural philosophy. Instead, the
curriculum largely consisted of the medieval trivium of grammar, rhetoric, and logic,
1 Sheldon S. Cohen, A History of Colonial Education, 1607-1776 (New York: Wiley & Sons, 1974), 66.
36
made popular by the humanism of the seventeenth century.2 During this period, Harvard
students studied a different subject each day.3 For example, each Wednesday the first-
and second-year students studied Greek grammar, while the third-year students practiced
their Greek composition. Each Thursday was Hebrew, each Friday rhetoric and
declamations, and each Saturday morning divinity catechetical.4 This method must have
been firmly entrenched, because the prominent Harvard scholar Samuel Eliot Morison
notes that even in 1760 Wednesday was still used for studying Greek and Friday for
rhetoric.5
If we are to discuss Harvard’s natural philosophy curriculum of this period at all,
then, we must look to Monday and Tuesday. The programs of study for each of these
two days were identical, with each class studying its own subjects in the morning and
then disputing them in the afternoon. Here, we do find physics in the curriculum, but it is
restricted to first-years, and even then is only studied from eight to nine in the morning
for one quarter of the year6 – hardly the three-year intensive treatment that a Harvard
2 Dear, Revolutionizing the Sciences, 30. Indeed, humanism impacted more than just education in America: to examine its impact upon the motivations of the settlers themselves, see Andrew Fitzmaurice, Humanism and America: An Intellectual History of English Colonisation, 1500-1625 (Cambridge: Cambridge University Press, 2003). 3 The 1642 pamphlet “New England’s First Fruits” lays out the curriculum as it was in the very early years of the College. A copy of the schedule sheet can be found in the Harvard University Archives, in the curriculum 1642 General Folder. The program of studying different subjects each day probably taken from Petrus Ramus, an influential figure at the University of Paris in the sixteenth century; see Samuel Eliot Morison, “Harvard College in the Seventeenth Century,” The Tercentennial History of Harvard College and University, 1636-1936 (Cambridge, MA: Harvard University Press, 1936), 140. For more on Ramus and the early modern university, see also Laurence Brockliss, “Curricula,” in A History of the University in Europe, Vol. 2: Universities in Early Modern Europe, 1500-1800, ed. Hilde de Ridder-Symoens (Cambridge: Cambridge University Press, 1992), 581. Harvard had modeled itself after the universities in England, and although England had not been affected by the revolt against scholastic tradition led by Ramon Lull in the thirteenth century – which became popular on the European continent – England was very much a part of the revolt led by Ramus in the 16th century, with effects lasting well into the 17th century. See Wilbur Samuel Howell, Logic and Rhetoric in England, 1500-1700 (New York: Russell and Russell, 1961), 7. 4 Morison, “Harvard College in the Seventeenth Century,” 141. 5 Ibid., 147. 6 Ibid., 141.
37
student could expect to receive in Greek and Hebrew. Nonetheless, an introduction to
Aristotle and his physics, as well as the matter theory of contemporary commentators,
would have been valuable information for the budding alchemist.
It is important keep in mind that the seemingly small amount of physics in
Harvard’s curriculum would not put Harvard’s future alchemists at any disadvantage
relative to their English counterparts. We have already noted that Harvard modeled its
curriculum after England’s finest institutions; if any Harvard student were to complain
that his education consisted too much of the trivium, he would have registered a similar
complaint at Oxford, where the education also centered on logic and disputation.7
Harvard had adopted the Oxbridge system as its model; it “neither preceded nor lagged
behind”8 the European academic establishment, where, in Protestant areas, a mechanical
philosophy of nature began to replace Aristotelian natural philosophy in universities
beginning in the 1650s.9
At essentially the same time we see the first major indications of Harvard also
transitioning away from scholastic Aristotelianism. For example, the notebook of
Michael Wigglesworth (AB 1651)10 includes a Physicae Compendium in Latin11 along
with his commencement dissertation. In the dissertation, Wigglesworth defends an anti-
Aristotelian thesis.12 He argues for the existence of an interspersed vacuum, or pores, in
matter – significant because the idea of nature abhorring a vacuum is a key Aristotelian
7 V. H. H. Green, A History of Oxford University (London: B. T. Batsford, 1974), 103-104. 8 Morison, “Harvard College in the Seventeenth Century,” 224. 9 Brockliss, “Curricula,” 584. 10 Michael Wigglesworth, MS Notebook, 1651, Harvard University Archives. 11 Ibid., 44. 12 Morison, “Harvard College in the Seventeenth Century,” 228.
38
view13 that would not be experimentally challenged by Robert Boyle’s air-pump for
another decade.14 Morison downplays the significance of Wigglesworth’s thesis –
although he also notes that it lacks the “repetitiousness common to Scholastic
disputations,”15 he groups it with other Aristotelian works and does not believe that the
“first clear evidence”16 for Harvard’s break from scholastic Aristotelianism occurred until
twenty years later.
Wigglesworth’s thesis is more significant than Morison realizes, however,
because of the Physicae Compendium in Wigglesworth’s notebook.17 Newman believes
that the anti-Aristotelian thesis of Michael Wigglesworth is simply a commentary on the
work of Jonathan Mitchell (AB 1647).18 Mitchell represents a “movement away from the
Aristotelian concept of absolute lightness and heaviness,” and he is especially important
because he has begun “thinking in corpuscularian terms.”19 This means that Mitchell
embraced the idea that matter is not infinitely divisible, as Aristotle thought; rather, he
believed that form cannot be infinitely large or small, thus preventing both infinite bodies
and infinitely divisible substances. The idea of minima naturalia, a concept of minimal
natural bodies,20 was first introduced into natural philosophy by the thirteenth-century
alchemist pseudo-Geber (Paul of Taranto), thus linking the roots of the natural
13 Joseph Owens, A History of Ancient Western Philosophy (New York: Appleton-Century-Crofts, 1959), 315. See also G. E. R. Lloyd, Early Greek Science: Thales to Aristotle (New York: Norton, 1970), 113-114. 14 Steven Shapin and Simon Schaffer, Leviathan and the Air-Pump: Hobbes, Boyle, and the Experimental Life (Princeton, NJ: Princeton University Press, 1985), 38-40. As they discuss, philosophical issues about whether the question could even be answered through experiment played a large role, as did access to an air-pump. 15 Morison, “Harvard College in the Seventeenth Century,” 228. 16 Ibid., 233. 17 Newman, Gehennical Fire, 25. 18 Ibid.,27. 19 Ibid., 25-26. 20 Cecilia Trifogli, “Matter and Form in Thirteenth-Century Discussions of Infinity and Continuity,” in The Dynamics of Aristotelian Natural Philosophy from Antiquity to the Seventeenth Century, ed. Leijenhorst, Lüthy, and Thijssen (Boston: Brill, 2002), 176.
39
philosophy discussed at Harvard with medieval alchemical matter theory.21
This idea of minimal natural bodies was to play a key role in the development of
seventeenth-century alchemy. George Starkey, who graduated only a year before
Jonathan Mitchell, likely encountered the idea of minima naturalia while at Harvard.22
This idea allowed him to expand upon the corpuscular matter theory of van Helmont,
which held that water was the primary element and that its underlying principles of
mercury, sulfur, and salt could switched their relative spatial orientations in order to
effect chemical change.23 Starkey then communicated his ideas to Robert Boyle, who, in
the words of the scholar William Newman, “knew and absorbed the material theory of
alchemy to such a degree that it form[ed] a seamless part of his own work.”24 Newman
gives the example that Boyle attributes mercury’s weight to the close packing of its
corpuscles, virtually echoing the sentiment in the Summa Perfectionis that great weight is
due to the close packing of many particles.25 The Summa was an important text in the
history of alchemical thought, and its influence should not be overlooked.
The Summa may even have meant something to Gershom Bulkeley – he made a
marginal note next to an appearance of Geber’s name in one of his manuscripts26 – but it
by no means constitutes the whole of the intellectual tradition behind alchemy in the
seventeenth century. Another man whose ideas are found in the notebooks of Gershom
Bulkeley is Michael Sendivogius (1566-1636). Bulkeley owned a transcription of
21 Newman, The Summa Perfectionis of Pseudo-Geber, introduction. 22 Newman, “The Corpuscular Transmutational Theory of Eirenaeus Philalethes,” 174. 23 Ibid., 172. 24 William R. Newman, “Boyle’s Debt to Corpuscular Alchemy,” in Robert Boyle Reconsidered, ed. Michael Hunter (Cambridge: Cambridge University Press, 1994), 107-118. 25 Ibid., 114. 26 HMS MSS 18, including Kircharus, Beccharus, Boilius [Boyle] all on page 31; Glauber, 38; Pico Mirandola, 59; Hermes, 65; Geber, Arnoldus, Lullius, 70; Petrus Bonus, 72; Paracelsus, 80; Philaleth[es] and Starkey, 77; and Sendivog[ius], page 80.
40
Sendivogius’s Novum lumen chemicum, or New Light of Alchymie,27 originally published
in 1604. His work made an important contribution to alchemical thought, even though at
the time Sendivogius was not believed to be the author. Instead, a popular story held that
he had saved the actual author from prison, who had in gratitude given him a small
amount of transmuting powder. After the alchemist died, Sendivogius married his widow
and carefully studied the book in a futile attempt to learn the secrets of alchemy.28 This
poor view of Sendivogius had become well-known by the late seventeenth century,
greatly obscuring his actual philosophical contributions to alchemy.
In his New Light of Alchymie, Sendivogius developed a natural philosophy which
centered on nitre, also called saltpeter.29 In his neoplatonic system, seeds of the elements
are digested by the center of the earth. The shells from these seeds become rocks, and the
digested virtues of the elements become a first matter – the philosophical mercury of
alchemists, or sal nitrum for Sendivogius. This sal nitrum comes up through the pores of
the earth, where it combines with philosophical sulfur in varying ways to form different
substances. These substances were acted upon by the “Archeus of Nature,” a power of
life, which activated them. Aerial nitre carried special weight in his system; such nitre
was thought be both the substance necessary for breathable air and also the central
ingredient in the preparation of the Philosopher’s Stone. It was a powerful, life-infused
matter, and it made nitre central to many alchemical and iatrochemical recipes of the
seventeenth century. Sendivogius’s ideas traveled widely, and they influenced many men
27 Newman, Gehennical Fire, 44. 28 Ibid., 6-7. 29 For an exposition of Sendivogius’s alchemy, see Newman, Gehennical Fire, 87-91. For additional material, see, for example, Zbigniew Szydlo, “The Alchemy of Michael Sendivogius: His Central Nitre Theory,” Ambix 40, no. 3 (November 1993): 129-146, as well as Zbigniew Szydlo, “The Influence of the Central Nitre Theory of Michael Sendivogius on the Chemical Philosophy of the Seventeenth Century,” Ambix 43, no. 2 (July 1996): 80-96, and Paulo Alves Porto, “Michael Sendivogius on Nitre and the Preparation of the Philosopher’s Stone,” Ambix 48, no. 1 (March 2001): 1-16.
41
on their way to Bulkeley. For example, such alchemists as Thomas Vaughan (1621-
1666)30 and Johann Rudolph Glauber (1604-1670)31 adopted Sendivogius’s idea of the
centrality of saltpeter, the latter of whom is also cited in an alchemical text owned by
Bulkeley.32
Continuing to use Bulkeley’s notebooks as a guide, we further see that alchemical
theories of the Italian Angelo Sala (1576-1637) crossed the Atlantic. Sala saw himself as
a Paracelsian, but during the course of his work he sought to reconcile the ideas of
Paracelsus and Galen.33 He did not hold all common Paracelsian ideas; for example, he
did not believe in the transformability of water, which placed him at odds with such
thinkers as van Helmont.34 Sala also rejected the idea of a universal medicine.35 Thus,
he could have served as a counterpoint for the recipes in Bulkeley’s manuscripts wherein
a universal medicine is supposed to be derivable from gold, showing the diversity of
views available to the aspiring New England alchemist.
Leonard Hoar, Alchemical Visionary
Surely many aspiring alchemists did live in the colonies, and despite the fact that
alchemy had not yet entered Harvard’s curriculum, everything could have changed
drastically in the 1670s. During this decade, Harvard recruited the scientifically reform-
30 See Thomas and Rebecca Vaughan’s Aqua Vitae: Non Vitis, ed. and trans. Donald R. Dickson (Tempe, AZ: Arizona Center for Medieval and Renaissance Studies, 2001), 11, 13. 31 Kathleen Ahonen, Johann Rudolph Glauber: A Study of Animism in Seventeenth-Century Chemistry (Ph.D. thesis, University of Michigan, 1972; Ann Arbor, MI: University Microfilms, 1994), 104, 109. 32 HMS MSS 18, 38. 33 Zahkar E. Gelman, “Angelo Sala, An Iatrochemist of the Late Renaissance,” Ambix 41, no. 3 (November 1994): 142-160. 34 Berthold Heinecke, “The Mysticism and Science of Johann Baptista van Helmont (1579-1644),” Ambix 42, no. 2 (July 1995): 65-78. 35 Gelman, 152.
42
minded Leon Hoar (AB 1650, MA 1653) to become its next President. Hoar had
graduated from Harvard and then traveled to England, where he made a living as a
preacher until 1660. Hoar had an interest in iatrochemistry – the University of
Cambridge granted him an MD degree in 167136 – and while in Europe he had befriended
Robert Boyle, a man now intensely interested in the subject. In the early 1670s he was
asked to accept Harvard’s presidency, and he arrived in New England on July 8, 1672.37
During the summer and fall, while the President’s lodgings at Harvard were repaired and
a President’s salary set aside, Hoar preached at the Old South Church in Boston until
inaugurated President of Harvard on December 10, 1672.38
Immediately after his inauguration, in a letter to Robert Boyle dated December
13, 1672,39 Hoar reveals both his interest in chemistry as well as his vision of the
scientific center he wanted Harvard to become. The letter also begins to illustrate the
close ties between the New World and the Old – given that Hoar sent a letter to Boyle
within three days of his inauguration, it seems as though Boyle was one of the first
people he turned to for help. Boyle must have been a close friend, and he must have
shared an intellectual vision with Hoar. It is in this shared intellectual vision that we find
a definite place for chemistry and alchemy in seventeenth-century Harvard’s curriculum.
Hoar, for example, says at one point that he is “not unmindful of your desires to
see what rarities the country might yield.”40 Accompanying the letter, Hoar says that he
has sent Boyle native New England berries as well as a collection of stones. These items
36 Morison, “Harvard College in the Seventeenth Century,” 395. 37 Ibid., 394. 38 Ibid., 395-399. 39 Morison has quite helpfully reprinted this letter as Appendix C at the end of his second volume of “Harvard College in the Seventeenth Century.” 40 Morison, “Harvard College in the Seventeenth Century,” 645.
43
might seem unremarkable in themselves – perhaps Boyle simply had an interest in the
natural products of the region – but the description Hoar gives of the berries sheds great
light on where his common interests with Boyle must lie. Hoar begins with a visual
description, saying that the berries “grow closely conglomerated unto the stalk of a shrub,
in its leaf, smell and taste, like the broadest leaved myrtle, or to a dwarf-bay.”41 His
comments thus far are superficial enough. However, he goes on to say that a berry, “by
plain distillation, yields an almost unctuous matter; and by decoction, not a resina, nor
oil, but a kind of serum, such as I have not known ordinarily for any vegetables. I believe
it excels for the wind-colick.”42 Thus, Hoar reveals that he has taken the berry and
distilled it, decocted it, and looked for medical applications of it. These are alchemical
practices brought to bear on a natural product in a medicinal context. Once one sees that
Hoar has taken an alchemical bent on the items he sends to Boyle, the significance of
sending stones quickly becomes apparent, as does the revolutionary impact that Hoar’s
academic interest in alchemy could have on undergraduate education at Harvard College.
With the plea that “we still hope some helpers from our native land,” Hoar then
spells out his vision of what he wants Harvard to have:
A large well-sheltered garden and orchard for students addicted to planting; an ergasterium for mechanick fancies; and a laboratory chemical for those philosophers, that by their senses would culture their understandings, are in our design, for the students to spend their times of recreation in them; for readings or notions only are but husky provender.43
The significance of Hoar’s pedagogical ambitions is twofold. First, they show that Hoar
was concerned enough with alchemy to desire what would have been the world’s first
41 Ibid., 645. 42 Ibid. 43 Ibid.
44
chemical laboratory.44 Second, they are significant for the phrase “readings and notions
are only husky provender.” Hoar says this in direct reference to his desire for a chemical
laboratory, and he thereby demonstrates that Harvard scholars were reading and thinking
about alchemy; they only lacked an official laboratory in which to practice it. The desire
to remedy this with official university action shows that Hoar, the President of Harvard,
would have no doubt integrated it into the curriculum as well. Hoar closes the letter by
asking Boyle to help “enrich our library, and encourage our attempts this way.”45
Hoar indeed had clear a vision for what he wanted Harvard to be. As Morison
quite eloquently says of Hoar’s inauguration,
It was a dramatic moment. After thirty-four years’ existence, Harvard College was to be presided over by one of her own sons… Forty-two years old, with a young wife, he had the world before him. Harvard College for him was an instrument to be quickened into vital service for God and man. He would have his alma mater no longer confine herself to suckling nurslings with spiritual milk, and conserving the culture of the past; he would rededicate her to the true advancement of learning, synthesize the great discoveries of the century, [and] boldly experiment with the physical phenomena of this new world so rich in possibilities of human betterment.46 None of this came to pass, however. Hoar’s vision of a university alchemical
laboratory, so exciting in its conception, never materialized. It is not even clear why.
Morison, who studied the situation in some detail, could only say “It was one of those
affairs that everyone discussed and fought over at the time, without leaving anything
definite behind.”47 Morison quotes a cryptic passage in which Cotton Mather says,
Were [Hoar] considered either as a Scholar, or as a Christian, he was truly a Worthy Man; and he was generally reputed such, until happening, I can scarce tell how, to fall under the Displeasure of some that made a Figure in the
44 Ibid., 401. 45 Ibid., 646. 46 Ibid., 400. 47 Ibid., 401.
45
Neighborhood, the Young Men in the colledge, took Advantage therefrom, to ruine his Reputation, as far as they were able.48 Whatever the reason, Hoar’s job security eroded very quickly. On October 2,
1673, the motion to remove Hoar from office failed at an Overseers’ meeting.49 This
must have seriously undermined Hoar’s authority and his ability to accomplish reform,
and it must have also made things very awkward between Hoar and those who wanted
him removed from office. In addition, Hoar does not seem to have helped his own cause.
For example, in February, 1674, Hoar had a senior whipped before his classmates for
“speaking blasphemous words concerning the HG [Holy Ghost].”50 Consequently, Hoar
only managed to retain a handful of loyal students, and after Commencement in 1674, so
few students returned to the College that drastic action was taken: Hoar took a pay cut, all
other paid employees were laid off, and the students dissipated until only three remained
by mid-November.51 Not surprisingly, Hoar’s time as President of Harvard ended shortly
thereafter. He resigned on March 15, 1675, and he died at the relatively young age of
forty-five on November 28, 1675.52 His vision of a chemically revolutionized Harvard
had not come to pass, and we can only guess why: perhaps he had asked too much;
perhaps he was too much of a visionary; perhaps he had arrived a decade too early.53
Indeed, the kind of scientific mindset that Harvard lacked when Hoar took over would be
provided ten years later by the curricular contributions of Charles Morton.
48 Ibid., 401-402. 49 Ibid., 404. 50 Ibid., 405. 51 Ibid., 407. 52 Ibid., 408. 53 Newman, conversation, 23 November 2003.
46
Charles Morton and Harvard Curriculum
The natural philosophy of Charles Morton (1627-1698) brought alchemy into
explicit discussion in Harvard curriculum – and it had an effect, for extracts from his
natural philosophy are found among Gershom Bulkeley’s manuscripts, even though
Bulkeley had graduated from Harvard decades earlier.54 Morton’s own education began
when he entered Queens’ College, Cambridge, in 1646.55 He grew disgruntled with the
situation there, however, and he moved to Oxford in 1648, where he received his BA in
1649 and his MA in 1652.56 At this time, Oxford was “much more friendly to
experimental science” than Cambridge, and this outlook shaped Morton’s intellectual
views greatly.57 In 1675, Morton opened an academy for dissenters – that is, those who
refused to conform to the Church of England58 – at his suburban London home at
Newington Green.59 Morton’s academy gained fame as one of the best preparatory
schools in England, due no doubt to his teaching and his textbooks, at least some of
which he wrote himself. While teaching, Morton also continued to pursue the
experimental sciences, and in 1676 he even contributed a short paper to the Royal
Society.60
In 1685 Increase Mather wrote to Morton on behalf of the First Church in
Charlestown, Massachusetts, asking him to be the pastor.61 Morton accepted, and he
arrived in Boston in June 1686. His influence on Harvard began immediately, for Morton
54 HMS MSS 2. 55 Introduction to Charles Morton, “Compendium Physicae,” in Publications of the Colonial Society of Massachusetts, Vol. 33 (Boston: Published by the Society, 1940), ix. 56 Ibid., x. 57 Ibid., xi. 58 Ibid., xv. 59 Ibid., xvi. 60 Ibid., xiv. His paper, “The Improvement of Cornwall by Sea-Sand,” is Royal Society Volume X, 1676, 293-6. 61 “Morton’s Compendium Physicae,” xix.
47
began to give private lectures, drawing students away from the College until Harvard
forced him to stop.62 He had brought his textbooks with him, though, and these were
copied and studied voraciously at Harvard. Morton’s most influential text at Harvard was
his Compendium Physicae. The Compendium covers such topics as physics, matter
theory and metals. It seems to have been very popular, for it was adopted at Harvard
shortly after his arrival – the earliest known copy at Harvard dates from 1687, and
Morison notes that the number of scientific theses at Harvard rose as soon as Morton
arrived.63
An inscription inside a manuscript of Morton’s Compendium Physicae shows the
degree of success that Morton had achieved. The dedication reads: “To the memory of
the learned Author Mr. Charles Morton. 1680. Intended then but written in the year
1712 1713.” The inscription is followed by verse which declares Morton to be “Worthy
of glass or marble to have stood / ought sure in the records of fame to live / as long as
perishing paper life can give.”64 Clearly, Morton and his ideas were respected at Harvard
in the seventeenth century.65 As we will see, he had a deep knowledge of Aristotle,
Boyle, and the two millennia of scientific development in between.
Morton’s Compendium Physicae
62 Ibid., xxiv. Morton could not have been too angry with the College, though, because he was named a Vice-President in 1697. He died the following year. 63 Ibid., xxiii. 64 Morton MS, “A Synopsis of Naturall Philosophy according to the Method of the Ancients but improved and augmented with the Notions of Later Philosophers” by Charles Morton, M.A., 1680, facing title page, Harvard University Archives. 65 In fact, Morton’s text was used at Harvard at least until 1728. “Morton’s Compendium Physicae,” xxxi.
48
Physics had finally found a secure and sizable place in Harvard’s curriculum upon
Charles Morton’s arrival in New England.66 Morton was an influential and respected
teacher, and physics played a primary role in his understanding of the world. Indeed, the
central role of matter theory in seventeenth-century science and natural philosophy is
reflected in the position that Morton takes in his very first passage of his Compendium
Physicae. In his preface, Morton says, “the End and last design of the science it self is to
enable a man to contemplate and meditate upon the nature of bodyes, the same may be
said of all other sciences.”67 In other words, he believes that sciences such as physics
exist to aid the exploration of matter theory – which is, in turn, inextricably linked to the
study of alchemy through its concern with the particulars of chemical and material
change.
Morton begins his discussion of matter theory by summarizing Aristotle’s
physics. For example, he adopts the four common Aristotelian elements of fire, water,
earth, and air to explain the compositions of all simple bodies.68 He also discusses the
Aristotelian qualities and properties of the elements, but, like Bulkeley, he makes it clear
that he does not accept them at face value. For example, he writes, “Water is defin’d (by
the Antients) an Element most cold, and humid, (or Moist) Air (by them) was Said to be
most Humid, and yet (say they) water [moistens] more than Air because of its more crass
parts whereby it better adheres to the thing to be moistened.”69 Here, Morton pays
homage to ancient philosophers like Aristotle by repeating their ideas; at the same time,
however, he distances himself through his parenthetical insertions. He also employs a
66 Morison, “Harvard College in the Seventeenth Century,” 224. 67 Morton, “Compendium Physicae,” 3. 68 Morton MS, 40. 69 “Compendium Physicae,” 53.
49
key word: air is made up of “parts,” the minima naturalia of the Summa Perfectionis.
This is significant because Morton has now shown us the basis for his alchemical matter
theory.
Of course, alchemy would be possible even under an Aristotelian system; the
concepts of matter and form ensure this. In order to transmute metals, one has only to
manipulate the forms present in an object. Specifically, in manipulating the matter and
form of metals, Morton is – like many alchemists – referring to mercury and sulphur,
respectively.70 Morton specifies that
Chymists say all metalls are specifically the same, only these 2 great principles of constitution (sulfur which hath more of Earth and mercury more congenial to water; according to the various combinations of those in quantity and quality and their different purity or concoction) give the various differences, which we call the kinds of metals.71
The theory of matter and form provides the alchemical idea that transmutation is possible
due to a common underlying matter.
Even if metals consist of a common matter, though, one still has to explain the
chemical change involved in transmutation. To this end, Morton goes a step beyond
Aristotle by espousing a particulate and pore-driven philosophy of matter. Discussing
fire, he says that smoke and steam is a mixture of the lighter and more volatile parts of
water, salt, and sulphur, while earth and fixed salt are left behind as ashes.72 Morton’s
discussion of the action of bloodstone is an especially interesting one. His description is
striking for its particulate nature – he explains that particles from the stone emanate
70 As an example of the principle, an especially simple such transmutation recipe, the final entry in John Frederick Houpreght, Aurifontina Chymica (London: William Cooper, 1680), reads: “Sublime [mercury] from his Earthly substance [the ore cinnabar], and then dissolve him into his former substance: then if it be to the Red Work take Sol, if it be to the White Work take Luna [i.e., take gold or silver, depending on what you want to make], and dissolve it in the said Mercury, until they be both one Mercury, which will not be without Putrefaction; then separate the Elements, and decoct them according to their due proportion.” 71 Morton MS, 162. 72 Ibid., 52.
50
through the pores of a victim’s wound, cause blood to clot by imparting some property
from the particles or their motion, and they then emanate back through the victim’s pores
and return to the stone.73 This is not an isolated concept; in Morton’s system, even
particles of metal can float around and wander through pores. For example, he includes
an entire section on gold’s “Attraction of mercuriall and arsenick steams in a wonderfull
manner.”74 For Morton, chemical and physical changes occur because of changes with
particles.
In addition to being familiar with the ancients such as Aristotle, Morton is
knowledgeable about the contemporary scientists of his time, as would be expected of a
man who had published a paper with the Royal Society. For example, he cites Robert
Boyle on the origin of gems, saying that they are made of only salt. 75 He also seems
greatly influenced by van Helmont’s idea that all things are composed of water.76 When
Morton’s discussion later turns to stones, for instance, he says that their “1st matter is
fluor or water in which is dispersed some nitre of the earth; this solution by quiet, cold,
and the fixing nature of salt becomes hard.”77 The discussion of nitre perhaps also shows
that Morton was familiar with the alchemical writings of Sendivogius or one of his
intellectual inheritors.
Beyond Morton’s chemically-driven matter theory, there are many other passages
which suggest Morton had more than a passing interest in alchemy. In one story, for
example, he names alchemists explicity, saying that gold is the “soul of every metall, and
73 Ibid., 155. 74 Ibid., 164. 75 “Compendium Physicae,” 115n. 76 Newman, 110. 77 Morton MS, 164.
51
extractable in small quantity from each of you.”78 Morton elaborates, saying that he had
heard of a Dutch captain who was able to extract enough gold to make a ring out of a
pool of tin simply by placing a rod into it and collecting the metal that stuck to it. This
story is interesting because it shows an interest in gold extraction, a typical alchemical
goal. Such a statement reflects alchemical interest in England and the colonies, and it
could only encourage more.
Morton also knows of the Philosopher’s Stone and its possible applications. For
example, he speaks of the “artifice of gold by Alchymy” being capable not only of the
“transmutation of all metalls into gold,” but also of “curing the Leprosityes” of those so
afflicted. He says, “This operation is called finding the Philosopher's Stone,” and he goes
on to name men he believes have done it, such as Ramon Lull, Paracelsus, van Helmont,
and a group of Venetians.79 Morton is clearly aware of alchemy, its chief aims, its
constructed history, and even some of the popular gossip about it at the time, as
evidenced by the reference to Venice. Thus, in the use of Morton’s text in Harvard’s
curriculum, we see the integration of explicitly alchemical content and matter theory with
more conventional natural philosophy – and such a view was disseminated widely, for a
copy of “An Extract of Mr. Charles Morton’s System of Phylosophy”80 can be found in
Gershom Bulkeley’s manuscript collection.
78 Ibid., 165. 79 Ibid., 166. 80 HMS MSS 2.
53
Chapter 3: The Transmission of Alchemical Knowledge in the 17th Century
Introduction
Having seen in the previous chapter that the alchemy in New England had firm
intellectual roots, we may now turn to discovering how those roots originated by
examining the production and transmission of seventeenth-century alchemical
knowledge. This will involve looking at what knowledge is and how it becomes valid, as
well as examining the basis for an investigator’s scientific authority in the seventeenth
century. From there, we will consider different ways in which this knowledge is
transmitted, including a model for information transmission in the New World analogous
to systems previously proposed for Europe. This chapter will also bring us back to
Gershom Bulkeley once more, for he was a firmly embedded node in New England’s
lively and complex network of alchemical knowledge transmission.
The Formation of Scientific Knowledge
Before any alchemical knowledge could be transmitted to Gershom Bulkeley in
Connecticut, it had to first be established as legitimate scientific knowledge. That is,
before we can consider the transmission of scientific knowledge, we must first look at
questions of how knowledge is made and how that knowledge could come to be
considered authoritative. Thankfully, the seventeenth century has elicited much
scholarship in these fields, for it marked an important transition period in the history of
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science.1 The beginning of the century saw such works as Francis Bacon’s New Atlantis,
which envisioned a closed scientific collective within society that would gather facts and
interpret them, leading to discoveries that would benefit society.2 At the time, even the
concept of scientific fact divorced from its context was new. Previous Aristotelian ideas
held that nature followed a usual course rather than hard laws, a system wherein the
concept of a fact could not exist. Bacon instead focused on apparent anomalies as
important indicators of nature’s ways; he also believed that one could separate the fact of
an occurrence from any theory as to why it may have happened. This new science led to
new problems – in an era when even the idea of a fact was new, investigators were
making inferences about nature based on experimentally obtained facts, but they could
not conduct all of the possible experiments individually. This meant that they were
necessarily relying on elements such as hearsay to provide what they hoped were
objective facts.3 How was an investigator to tell which facts could be trusted?
Recent scholarship has shown that reports of fact were usually deemed
trustworthy based more on social factors than on scientific ones. Many citizens of the
1 The seventeenth century marks the latter part of a period that has long been known as the Scientific Revolution. Steven Shapin, in The Scientific Revolution (Chicago: University of Chicago Press, 1996), 1, 3, says, “There was no such thing as the Scientific Revolution,” but by this he does not mean that it was not a period of great change. Rather, he means to “reject even the notion that there was any single coherent cultural entity called ‘science’ in the seventeenth century to undergo revolutionary change.” Instead, there existed “a diverse array of cultural practices aimed at understanding, explaining, and controlling the natural worked, each with different characteristics and each experiencing different modes of change.” I consider this view cutting-edge. Even textbooks that take a more conservative viewpoint and assume the semantic utility of a “Scientific Revolution” still respond to Shapin. They ask the question “So, if there was no ‘science’ at the time of the Scientific Revolution what was there?” and then put forth the answer, “There was something called ‘natural philosophy,’” John Henry, The Scientific Revolution and the Origins of Modern Science, 2nd Ed. (New York: Palgrave, 2002), 4. 2 See Jerry Weinberger, ed., Francis Bacon: New Atlantis and The Great Instauration (Wheeling, IL: Harlan Davidson, 1989). 3 See Lorraine Daston, “Baconian Facts, Academic Civility, and the Prehistory of Objectivity,” Annals of Scholarship 8, no. 3/4 (1991): 337-363, for the invention of facts and the problem of hearsay. As Daston quotes on her page 339, Thomas Hobbes reflected the spirit of the time when he said, “The register of knowledge of Fact is called History,” in Hobbes, Leviathan (1651), Part 1, Chapter 9. Shapin, Leviathan and the Air-Pump, also discusses matters of fact.
55
seventeenth-century thought that a lack of education indicated utilitarian knowledge and
also a lack of knowledge of or adherence to any particular theory.4 Importantly, the
converse was also thought to be true: upper-class refinement5 could be taken to indicate
knowledge of abstract ideas associated with the mechanisms of the natural world. In this
case, a man could be called a “gentleman and a scholar,” and the two compliments given
him were to some degree synonymous.6 This idea is reiterated and expanded upon in
Steven Shapin’s A Social History of Truth, which argues that gentlemanly status ensured
an investigator’s social and moral standing, and thereby also his trustworthiness. Further,
status as a gentleman safeguarded the investigator against charges of mercenary interest,
which might be leveled at him were he a tradesman with low social status.7
We see the exception that proves the rule in Robert Hooke (1635-1703). Hooke
was without doubt a smart and creative man – he helped plan the rebuilding of London
after the fire of 1666; he made important contributions to scientific instrument
technology; and he helped establish the scientific authority of the Royal Society.8
However, he did not travel the gentlemanly route in his pursuit of natural philosophy – as
a youth, due to physical infirmity, he spent more time apprenticing with local craftsmen
4 In this capacity – having no adherence to theory – the unlearned could be sometimes be used as worthy witnesses, for they would report an objective account of the fact. They lacked the social standing to opine on the facts, however. 5 Although I focus only on social standing, the etiquette expected to accompany this standing was also important – see Mario Biagioli, “Etiquette, Interdependence, and Sociability in Seventeenth-Century Science,” Critical Inquiry 22, no. 2 (Winter 1996): 193-238. 6 Steven Shapin, “The Problematic Identity of the Scientific Practitioner in Early Modern England,” History of Science 29 (1991): 279-327. 7 See Steven Shapin, A Social History of Truth: Civility and Science in Seventeenth-Century England (Chicago: University of Chicago Press, 1994). Trust and credibility were very important to establishing any kinds of new knowledge about the natural world in the seventeenth century; for an example with geographical knowledge, see C. W. J. Withers, “Reporting, Mapping, Trusting: Making Geographical Knowledge in the Late Seventeenth Century,” Isis 90, no. 3 (September 1999): 497-521. 8 Stephen Inwood, The Man Who Knew Too Much: The Strange and Inventive Life of Robert Hooke (London: Macmillan, 2002), ix.
56
than in school.9 Thus, although he showed great ability in constructing devices, he
lacked the philosophical training that a gentleman might receive through an Oxford or
Cambridge education. Consequently, when Hooke went to work in Robert Boyle’s lab at
Oxford, and when he was later named Curator of Experiments for the Royal Society, he
had a lower social standing than his colleagues, who could still view Hooke’s job as more
menial or mechanical and less philosophical than their own. Perhaps this is why Isaac
Newton “seemed to hate Hooke’s letters” even as they pushed him to address important
questions, and why the “Hooke-Newton correspondence is often read on the assumption
that Hooke was a cantankerous and friendless troublemaker,” while, “In reality, Newton
possessed many of the characteristics usually ascribed to Hooke.”10 Just as gentlemanly
status could support one’s scientific claims, a lack of gentlemanly status could only hurt
them.
Gentlemanly status could also be transferred to a group, as with the collective
authority of the Royal Society,11 or the same kind of authority found within with a
university or a religious order. In fact, simply being Christian also lent moral quality and
therefore a greater degree of trustworthiness to an individual. Robert Boyle, for example,
led “an immensely useful life” as a “publicly recognized Christian gentleman.”12 He was
heavily involved in the Company for the Propagation of the Gospel in New England (the
New England Company) even while devoting much time to the Royal Society.13 It was
very useful for people to know about his devout nature because it helped him gain more
9 Ibid., 3-11. 10 Ibid., 298-299. 11 We must not forget, of course, that much of the Royal Society’s authority came from the fact that it had the word “Royal” in its name – it operated under a royal charter and also drew authority from its association with the monarch. 12 Shapin, A Social History of Truth, 156. 13 John D. Burton, Crimson Missionaries: Harvard College and the Robert Boyle Trust, Master’s Thesis, William and Mary, 1989. Held in the Harvard University Archives.
57
credibility and be taken even more seriously than he otherwise would have been. Due to
his social standing, his scientific affiliations, and even his religion, Boyle’s ideas
constituted quintessential authoritative knowledge.
Networks and Intelligencers
After the creation and legitimization of knowledge, we can discuss the
transmission of scientific knowledge in the seventeenth century. It is tempting to believe
that knowledge arose inside scientific groups such as the Royal Society after little or no
discussion with the outside world; this view of scientific development portrays a select
group of well-known gentlemen investigators researching nature and legitimating their
claims to one another, perhaps only later communicating the now-certain matters of fact
to others. Some recent scholarship has reacted against this idea that the experimental
philosophy of the seventeenth century developed within “closed circles,” where scientific
information flowed only through strong (i.e., close and personal) ties. Instead, it seems
the lines of communication were in fact more “open networks.”14 Under this model,
scientific groups were in constant communication with many different sources outside or
tangent to their own circle – those to whom they had only weak ties. For example, when
the scholars David Lux and Harold Cook consider the correspondence of Henry
Oldenburg (c.1615-1677), Secretary of the Royal Society from 1662-1677, they see a
nuanced landscape of intellectual communication.
Oldenburg maintained a complex network of contacts in his quest to gather
14 For this distinction I am drawing upon David S. Lux and Harold J. Cook, “Closed Circles or Open Networks?: Communicating at a Distance During the Scientific Revolution,” History of Science 36 (1998): 179-211.
58
knowledge for the Royal Society. He did not restrict himself to recording the socially
legitimated claims of the members of the Royal Society, with whom he shared strong
social ties; rather, he cast his net far and wide with relatively weak contacts and
acquaintances on the Continent in an attempt to learn of the latest experimental findings.
For example, he received regular updates from French scholars such as Henri Justel
(1620-1693) and Pierre-Daniel Huet (1630-1721).15 Lux and Cook note the
conversational quality of the correspondence between these men and Oldenburg – even
though he did not have close, personal ties with the two men, he clearly placed great faith
in the information they sent. Thus, although the dichotomy of strong versus weak ties
may be used to delineate local groups such as the Royal Society from their contacts on
the Continent, they are all part of a larger web of information transmission.
Weak ties are important because they serve to maintain the flow of information as
an open network rather than containing it within isolated closed circles. For example,
Oldenburg learned of a cure for the gout because he was acquainted with Constantijn
Huygens, who had relayed to Oldenburg news published in the Netherlands by the son of
Hermann Busschoff, a Calvinist Minister in the Dutch East Indies who had learned it
from a local healer.16 This relay of information through successive weak ties proved
invaluable for the rapid transmission of scientific information. To prove by
counterexample, one also sees the diminution of Oldenburg’s ability to obtain scientific
information from France once the Paris Academy of Sciences came into being – the
official policy of secrecy of the Academy not only stymied Oldenburg’s ability to get
15 Ibid., 189. 16 Ibid., 183.
59
information from France, but it also stifled the scientific activity of the Academy itself.17
With rigid walls drawn, and closed circles truly attained, the whole system of
transmission of scientific knowledge had broken down.18 Thanks to the artificial
dissolution of weak ties, the Royal Society effectively lost scientific communication with
France.19 Such weak ties were clearly indispensable to the dissemination of knowledge
in the seventeenth century.20
Oldenburg and the models discussed so far are important for our understanding of
how information spread from England to the New World. However, how are we to apply
models constructed for regions with formal scientific societies to ones where such
societies are lacking, such as the colonies in the late seventeenth century? I believe that
we can adjust for this if we make a single conceptual addition: before the coming of
formal scientific societies, a man in a position analogous to Oldenburg’s has been termed
17 Ibid., 199-200. 18 This phenomenon has not always been perceived. For example, one early historian of science in the seventeenth century saw the Royal edict for the creation of the Paris Academy of Sciences as giving a “more enduring form to their previous organization.” See Martha O. Bronfenbrenner, The Role of Scientific Societies in the Seventeenth Century (Ph.D. thesis, Columbia, 1913; Chicago: University of Chicago Press, 1938), 91. 19 In this way perhaps history is fortunate that the Royal Society did not have such strict boundaries drawn up around it. To be sure, some of its members, such as Robert Hooke, believed that a close-knit, secret society with restricted membership, like the Paris Academy of Sciences, was preferable to the more open structure of the Royal Society. In the end, though, the same lack of funding that kept the Royal Society from emulating the Paris Academy of Sciences also served to keep its doors open, as the Society opened its doors to collect larger amounts of membership fees. See Michael Hunter, Establishing the New Science: The Experience of the Early Royal Society (Woodbridge, UK: Boydell, 1989). 20 Looking to a religious order for another example, we can also see that the Jesuits formed this kind of organic network, reliant upon weak ties, for the transmission of knowledge. Jesuit academics on foreign missions interacted with local peoples and also investigated nature themselves; they then transmitted this information back to Europe for dissemination. Thus the information gathered by the missionaries was surely transmitted via strong ties to their brethren in Europe, but this knowledge would have gone nowhere else, and indeed might not have existed in the first place, without the weak ties forged between the missionaries and the local peoples, and also between the Jesuits in Europe and their scientific contacts there. See Steven J. Harris, Jesuit Ideology and Jesuit Science: Scientific Activity in the Society of Jesus, 1540-1773 (Ph.D. Thesis, Wisconsin-Madison, 1988; Ann Arbor, MI: University Microfilms, 2001), 129, 258, 273. For greater detail of knowledge transmission topology, see Harris, “Mapping Jesuit Science: The Role of Travel in the Geography of Knowledge,” in The Jesuits: Cultures, Sciences, and the Arts, 1540-1773, ed. J. W. O’Malley et al. (Toronto: University of Toronto Press, 1999), 212-240.
60
an “intelligencer.”21 An intelligencer would not belong to a formally established
scientific group, but he would correspond widely and gather as much knowledge as
possible, then communicate it to other people. In this way the intelligencer held together
the informal local scientific and philosophical networks of his region.
The prototypical intelligencer is Samuel Hartlib (c1600-1662), whose
contemporaries saw him as the “hub of the axletree of knowledge.”22 Hartlib, who settled
in England after graduating from Cambridge, believed that England needed an Office of
Address, or a government-run knowledge collection and re-distribution center. This kind
of institution did not come to pass in his lifetime, however, and he instead dedicated most
of his life to its cause. He “saw it as his calling to disseminate information,”23 and
consequently left behind a massive amount of manuscript correspondence concerning the
acquisition and transmission of information. To this end, Hartlib, with his multitude of
both weak ties and strong ties, was the most important node in a network connecting
many scientific circles. For example, he acted as the center of the circle connecting the
alchemically-minded Robert Boyle and George Starkey.24 He used such ties and
connections to become the consummate intelligencer – a hub of knowledge who
compiled as much information as he could from his connections and re-distributed it in
turn.
21 Mark Greengrass, “Archive Refractions: Hartlib’s Papers and the Workings of an Intelligencer,” in Archives of the Scientific Revolution: The Formation and Exchange of Ideas in Seventeenth-Century Europe, ed. Michael Hunter (Woodbridge, UK: Boydell, 1998), 35-47. 22 Greengrass, 20, quoting G.H. Turnbull, Samuel Hartlib: A Sketch of his Life and his Relations to J.A. Comenius (London, 1920). 23 John T. Young, Faith, Medical Alchemy and Natural Philosophy: Johann Moriaen, Reformed Intelligencer, and the Hartlib Circle (Brookfield, VT: Ashgate, 1998), 75. 24 For a focus on Starkey, see Newman, Gehennical Fire, 54-84.
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Intelligencer as Model for the Colonies
I have focused on Hartlib’s role as an intelligencer in pre-Royal Society England
because I believe that he, even more than information gatherers for formal societies such
as Henry Oldenburg, provides an interesting model through which we can interpret the
transmission of information in the colonies. Specifically, I believe that one can cast John
Winthrop, Jr., as the local intelligencer of the American colonies. As previously
discussed, Winthrop had collected the largest-known scientific library in the colonies at
the time. Like Hartlib, he clearly had a voracious appetite for collecting and compiling
vast amounts of information about the natural world. He also had a large network of both
close personal friends and also more distant acquaintances – people with whom he lived
and worked, and those whom he may have visited or simply corresponded with. I have,
for instance, already discussed Winthrop’s trip 1642 to visit Johann Rist, a German poet
who was interested in alchemy.25 It was through such visits as these that Winthrop built
his network of acquaintances.
Once Winthrop had built his network, he maintained it by corresponding with a
multitude of people about alchemical subjects. For example, Winthrop had a relatively
strong tie to Johann Sibert Kuffler, a childhood friend.26 Winthrop sent Kuffler a letter
dated August 20, 1659, asking “Whether you know Helmonts Alkahest... I doe not desire
that matter of secresy should be committed to a letter... But only to know the reality of
such things to your understanding in whose word I can confide.”27 The letter is clearly an
25 Jantz, “America’s First Cosmopolitan,” 6-7. 26 Ibid., 8. 27 Ibid., 8.
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attempt to gather knowledge, and it pertains to a serious alchemical pursuit.28 However,
it is not by itself evidence for Winthrop as an intelligencer. Larger and wider alchemical
ties would be needed to support an assertion that Winthrop played an important role in
the transmission of knowledge from Europe to the colonies.
We find such evidence in Winthrop’s ties to the scientific circles of England.
Winthrop corresponded directly with both George Starkey, who wrote him a letter in
1648 asking if Winthrop had any extra mercury or antimony,29 and also with Samuel
Hartlib.30 This direct connection to the Hartlib Circle means that Winthrop did not
merely solicit alchemical knowledge from close friends, but likely acted as a regional
collection and distribution center for information. Furthermore, when Winthrop returned
to the colonies from London in 1663, he took with him an “informal commission as the
Royal Society’s correspondent for North America,” and he began communicating with
Henry Oldenburg and Robert Boyle.31 The information he sent could be judged
trustworthy, based on his social class – his father was governor of Massachusetts, and he
later governed Connecticut himself. Thus, Winthrop was just the person who would be
accepted rather easily by an English intellectual circle, and he drew upon his position as a
hub in the complex networks of Hartlib and Oldenburg to play the role of intelligencer
for the colonies.
28 In alchemical writing, an alkahest is a universal solvent. Such a substance would greatly simplify alchemical recipes. However, it often begged the question, if an alkahest could dissolve anything, what would you store it in? 29 Newman, Gehennical Fire, 40. 30 Jantz, 8. The letter to Samuel Hartlib is dated December 16, 1659. Jantz uses it to show that “Winthrop was still a seeker and not an adept,” thereby ruling him out as a possible author of the tracts by the pseudonymous Eirenaeus Philalethes. 31 Black III, The Younger John Winthrop, 307.
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Bulkeley as Important Node
Having traced a hypothetical packet of knowledge through its generation,
acceptance, and transmission through the scientific communication networks of the
seventeenth century to John Winthrop in the colonies, we now find ourselves back at
Gershom Bulkeley’s doorstep, for he was a close alchemical contact of Winthrop’s.
Bulkeley corresponded with Winthrop and was aware of Winthrop’s iatrochemical
preparations.32 After Winthrop’s death Bulkeley even spent time as a medical advisor to
his children.33 This makes Bulkeley only one step removed from the chemical
transactions of the Hartlib Circle. Additionally, he was clearly familiar with alchemical
developments in England – his manuscript collection includes a few items taken out of
the “History of the Royall Society of London”34 as well as chemical observations from
the Philosophical Transactions of the Royal Society.35 Therefore, I believe that
Bulkeley’s role in knowledge transmission warrants further study because he represents
an important example of a secondary node in a communication network of scientific
information. Continuing one more step in our outward trace, then, we will see that
Bulkeley also played an important role in the network, corresponding with many people
about alchemy and medicine.
Bulkeley’s extant manuscripts show that he corresponded with many colonists
about alchemical topics. One letter, from a Mr. Johannes Potter, describes a process of
glazing and mending broken earthen vessels, using clay, water, rye, and lead, and then
32 Jodziewicz, 21. 33 Newman, Gehennical Fire, 44. 34 HMS MSS 19, 27. 35 HMS MSS 3.
64
putting the vessel into the fire.36 Bulkeley also communicated with a Dr. James Oliver of
Cambridge; at the end of a transcription of a Latin work entitled Arcana Philosophia,
Bulkeley copied a letter from Oliver dated May 26, 1701, which he notes pertains to the
12th chapter of the text (compounded vegetable menstruums, or solvents).37 Oliver shares
multiple medicinal remedies, one of which is for a medicine called Crocus metallorum in
wine which he makes through sublimation and calcification and administers to treat a
disordered stomach. Immediately following this letter, Bulkeley wrote that he found
Oliver’s recipe to be a “slow medicine,” which made him “a little more negligent in
making it as late.”38 These letters, and Bulkeley’s note, are significant because they
illustrate the active role that Bulkeley played in a lively local community of practicing
alchemists. He was not part of a network that functioned solely to redistribute
information it had obtained from contacts in England; rather, the transmission of
information likely went both ways, as practitioners both in Europe and in the colonies
exchanged information, carried out experiments, and sent their results and critiques to
one another through their social network.
One additional letter gives insight into the possible size of Bulkeley’s alchemical
network. The letter, which appears transcribed at the end of one of Bulkeley’s
manuscripts at the Hartford Medical Society, is a recipe for making “Indian matt.” from
“Mr. Tho. Hooker… Minister at Hartford in Connecticutt.”39 This is undoubtedly the
very same Thomas Hooker who knew Bulkeley’s father Peter well and had worked
36 HMS MSS 17, 380. 37 Gershom Bulkeley Collection, Watkinson Library, Trinity College, Hartford, Connecticut. Page 209 of Arcana Philosophia. 38 Page 211 of Arcana Philosophia. 39 HMS MSS 18, 565.
65
closely with him in the past.40 The two men had known each other since Gershom was a
baby; Hooker had moderated a synod with Peter Bulkeley concerning the Antinomian
controversy in 1637, during which Anne Hutchinson was banished from the
Massachusetts Bay Colony. He was a minister, yet here we see him writing about
alchemical matters. We can only conclude that alchemy, even though schools did not
formally teach it, was known to learned men in a diverse number of fields rather than
being restricted to chemists or doctors alone. Bulkeley himself, after all, had begun as a
minister and ended up two steps from Samuel Hartlib. Thus, the possible number of
interested alchemical practitioners is no doubt much larger than the number we can
currently fit definitively into Bulkeley’s local network.
Indeed, the possible depth and extent of Bulkeley’s weaker alchemical contacts is
staggering. For example, if we look at a medical account book from the end of his life,
we find that he treated patients with chemical remedies, but one entry’s consumption of
antimony is so regular that one thinks Bulkeley may have been preparing the antimony
and then selling it to another doctor.41 For example, in 1708 he appears to have sold
medicines to Dr. Timothy Baker of Northampton on many occasions; this includes a few
ounces of elixir of antimony every month from May to August.42 Was Bulkeley trading
chemical preparations with other doctors in the region? This would further broaden the
number of possible people with whom he could discuss alchemy.
Throughout this discussion of knowledge transmission, one must keep in mind
that Bulkeley did not correspond about alchemy for abstract purposes; he regularly
40 Jodziewicz, 6. 41 HMS MSS 12. Note: only alternating pages are numbered. The book covers April 25, 1708 to March 9, 1714. The last few entries have different handwriting; this is likely because Gershom was dead (he died in 1713). 42 Ibid., 6.
66
administered chemicals to his patients. Chemicals are omnipresent throughout the
account book. Bulkeley lists many elixirs and pills containing mercury and antimony
which he administered to patients such as a Cale Micks of New Haven (May 1708),43 as
well as a Richard Goodman Hary, who received antimony on June 23, 1708,44 and a Mr.
Daniel Brown of Springfield who, in 1708, received iron in August and antimony in
October.45 The knowledge that made its way through the network to Bulkeley was put to
practical use, not just kept in books.
I have thus far sketched the outline of a model for the communication and
transmission of information to and from New England, with a focus on Gershom
Bulkeley’s node in particular. The model, roughly, traces information through a social
communication network from its generation anywhere in the Western world, be it on the
European Continent, in England, or in the colonies, to its collection by intelligencers such
as Samuel Hartlib and Henry Oldenburg, and then through its redistribution to smaller
nodal points such as John Winthrop and Gershom Bulkeley. This model could easily be
interpreted in a hierarchical fashion, especially given the need for the investigator of
nature to have gentlemanly status in Europe in order to be taken seriously. I wish to
dispel this notion, for at least in New England, there is no easy hierarchy into which one
can fit the alchemical practitioner-correspondents.46 For example, Hartlib served as a
quintessential intelligencer while alive, and he corresponded with Winthrop, who in turn
exchanged knowledge with Bulkeley. But we are dealing with a network, not a tree, so it
43 Ibid., 2. 44 Ibid., 4. 45 Ibid., 10. 46 For the philosophically-minded, the non-hierarchical network of alchemical communication approaches the rhizome of Giles Deleuze and Félix Guattari. In their conception, a rhizome system obeys several principles, including those of connection and heterogeneity, which hold that “any point of a rhizome can be connected to anything other, and must be.” See Deleuze and Guattari, A Thousand Plateaus: Capitalism and Schizophrenia, trans. Brian Massumi (London: Athlone, 1988), 7.
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should come as no surprise that Bulkeley also had a direct connection to London in the
form of his brother-in-law Isaac Chauncy.
Connection to Chauncy
Bulkeley’s connection to Chauncy is an interesting example of a strong tie acting
at a distance. The connection existed because Bulkeley had married Sarah Chauncy,
daughter of Harvard president Charles Chauncy.47 Sarah’s brother Isaac lived in London,
where most of the books read in England and the colonies were published. The most
obvious evidence for Bulkeley’s alchemical connection to Isaac Chauncy comes in the
form of a letter, dated April 14, 1695, in which Isaac discusses the proper care of
chemical glassware, such as careful handling, coating with clay to avoid breakage, and
luting the mouth properly.48 Isaac’s writing thus illustrates the fact that both men were
involved in the practice of alchemy, for issues of proper equipment care seem mutually
interesting.
The letter, though it shows the exchange of ideas, does not reveal the entire
connection. In his manuscript collection, Bulkeley had transcriptions of a multitude of
English books on alchemy. Where did he get them? To answer this question, we need to
begin with The Works of the Highly Experienced and Famous Chymist, John Rudolph
Glauber,49 published in London by William Cooper in 1689. Inside the book, a catalogue
is given of subscribers’ names, and the list includes an “Isaac Chancy, M.D.”50 This
47 Jodziewicz, 6. 48 HMS MSS 17, 377-378. 49 Thomas Milbourn, ed., The Works of the Highly Experienced and Famous Chymist, John Rudolph Glauber (London: D. Newman and W. Cooper, 1689). 50 Cooper’s Glauber, viii, but not paginated.
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means that Chauncy pursued alchemy to the extent that he helped raise the funds for the
publishing of alchemical works, and also that he would have easily been able to acquire
these works and send copies of them to Bulkeley in New England. Bulkeley cited
Glauber frequently, and it seems likely that his discussions of distilling, oils of the
metals, and the like, utilized a copy of Glauber obtained from Isaac Chauncy as a source.
Additionally, the end of the printed Glauber book closes with an advertisement for the
Opera Omina of van Helmont – Cooper could thus be the origin of Bulkeley’s van
Helmont transcription as well.
Further proof for the Bulkeley-Chauncy-Cooper connection is found in the work
of Sir Kenelm Digby (1603-1655). In 1682, Cooper helped publish a posthumous
“Collection of rare Secrets and Experiments in Philosophy; as also Rare and unheard-of
Medicines, Menstruums, and Alkahests” attributed to Digby.51 Digby had been a
member of the Hartlib Circle,52 and his book of secrets had been collected during the
1650s and 1660s, when the Circle was at its most productive.53 In Bulkeley’s
manuscripts, one also finds the collected “Chymicall Secrets” of Sir Kenelm Digby,54 and
they read exactly the same. For example, both give the exact same recipe for the
Philosopher’s Stone, complete with a word-for-word anecdote about the writer’s
laboratory helper. It seems very likely that Chauncy supplied this book to Bulkeley.
Given that so many of the alchemical texts Bulkeley became familiar with were printed in
London – such as the 1678 printing for Cooper of Starkey’s Ripley Reviv’d – it seems
51 A Choice Collection of rare Secrets and Experiments in Philosophy; as also Rare and unheard-of Medicines, Menstruums, and Alkahests; with the True Secret of Volatilizing the fixt Salt of Tartar, collected by Sir Kenelm Digby, published by George Hartman, to be sold by William Cooper (London, 1682). 52 Betty Jo Dobbs, “Studies in the Natural Philosophy of Sir Kenelm Digby: Part II, Digby and Alchemy,” Ambix 20, no. 3 (November 1973): 143-163. 53 Betty Jo Dobbs, “Studies in the Natural Philosophy of Sir Kenelm Digby: Part III, Digby's Experimental Alchemy – the Book of Secrets,” Ambix 21, no. 1 (March 1974):1-28. 54 HMS MSS 18, 129.
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very likely that Chauncy was not only interested in alchemy, but that he supplied books
to Bulkeley on a regular basis as well.
The Chauncy Family
We have already seen that Gershom Bulkeley married into a family where his
brother-in-law was able to provide him with the latest alchemical texts printed in London.
Additionally, Isaac’s brother Elnathan Chauncy became interested in alchemy while an
undergraduate at Harvard in the late 1650s; he kept a commonplace book in which he
wrote down selections from the alchemist Thomas Vaughan, for instance.55 Like
Gershom Bulkeley and Isaac Chauncy, Elnathan Chauncy also became a physician. In
fact, many of the Chauncys were physicians, including Charles Chauncy, father to Isaac
and Elnathan, who was President of Harvard from 1654 to 1672. Medicine, and
undoubtedly the iatrochemistry synonymous with it at the time, surrounded the Chauncy
family – just as the family surrounded Harvard in the seventeenth century. Does this
mean that alchemy could have become a major University interest, even if it were never
officially taught in the classroom? One scholar has already made similar speculations,56
and I believe that my research into the Bulkeley-Chauncy connection adds further weight
to the Chauncy case.
55 Newman, Gehennical Fire, 45-46. 56 Ibid., 46.
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Conclusion
Alchemy and its practitioners in seventeenth-century New England were a far cry
from the shadowy, magical world of Harry Potter. In the colonies, physicians such as
Gershom Bulkeley took part in a lively alchemical community, practicing an alchemy
that overlapped significantly with medicine as they prepared and employed chemical
therapeutics. Bulkeley’s Vade Mecum, a synthesis of his alchemical knowledge,
demonstrates a feeling of mastery as it manipulates and chooses from different
alchemical sources. The position of unofficial Royal Society correspondent held by John
Winthrop, Jr., and also the influence exerted on European alchemists by George Starkey,
further shows that the ideas of colonial alchemists were taken seriously both in the
colonies and in England.
Harvard offered an institutionalized home for alchemy in the seventeenth century.
Through its modicum of scholastic physics, students were introduced to the basics of
matter theory; through the natural philosophy of Charles Morton, students were later
introduced to alchemy itself. Starkey and John Allin offer ample evidence that alchemy
was a serious pursuit of Harvard students prior to the incorporation of Morton’s works
into Harvard curriculum, and Bulkeley shows that this pursuit remained strong through
the end of the century. Even Harvard’s Presidents played an active role in New
England’s alchemical community – Leonard Hoar’s alchemical vision was not realized,
but Charles Chauncy’s administration lasted for almost twenty years.
All of these practitioners took part in a complex network of alchemical knowledge
transmission. John Winthrop, Jr., acted as an intelligencer, collecting and distributing
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vast amounts of alchemical information between England and the colonies. Other
practitioners, like Bulkeley, corresponded with contacts on both sides of the Atlantic as
he sought knowledge and gave advice. He represents a vibrant, open alchemical
community whose understanding is invaluable to provide a fuller picture of the historical
landscape of alchemical development.
To quote the historian of science Allen Debus:
I know now that we cannot understand the Scientific Revolution without an understanding of the role played by chemistry. But I believe in the future, when we know more than we do now, that we will also be able to say that it is impossible to understand recent world history without a knowledge of the history of chemistry.”1
Indeed, when conducting a proper study of alchemy, we cannot help but discuss such
fundamental issues as the creation and transmission of scientific knowledge, both down
through the years and also as a network of communicating practitioners. Knowledge of
alchemy, even though it is no longer practiced as such, is nonetheless applicable to the
scientific world of today.
1 Allen G. Debus, “The Significance of Chemical History,” Ambix 32, no. 1 (March 1985): 11.
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Annotated Bibliography
Primary Sources Digby, Sir Kenelm. A Choice Collection of rare Secrets and Experiments in Philosophy;
as also Rare and unheard-of Medicines, Menstruums, and Alkahests; with the True Secret of Volatilizing the fixt Salt of Tartar. London: George Hartman and William Cooper, 1682.
An alchemical treatise contained word-for-word in Gershom Bulkeley’s
notebooks (HMS MSS 18). Gershom Bulkeley Collection, Hartford Medical Society (HMS) Manuscript (MSS)
Collection, Hartford, Connecticut.
The 22 manuscripts of this collection contain a variety of English and Latin records and treatise transcriptions, almost all chemical.
Gershom Bulkeley Collection, HMS MSS 1.
An iatrochemical encyclopedia by Johannes Henricus Alsted. Gershom Bulkeley Collection, HMS MSS 2. “An Extract of Mr. Charles Morton’s System of Phylosophy.” Gershom Bulkeley Collection, HMS MSS 3. Contains chemical observations transcribed from the Philosophical Transactions
of the Royal Society of the 1660s. Gershom Bulkeley Collection, HMS MSS 4. Chemical log. First date 1679. Gershom Bulkeley Collection, HMS MSS 5. Chemical notes from 1702-1707. Gershom Bulkeley Collection, HMS MSS 6. Medical encyclopedia and recipe book.
74
Gershom Bulkeley Collection, HMS MSS 7. Long chemical treatise discussing the production and manipulation of “alcalis.” Gershom Bulkeley Collection, HMS MSS 8.
Contains theological notes and a medical encyclopedia. Thought to have been written in the early 1660s.
Gershom Bulkeley Collection, HMS MSS 9.
An alchemical work on the nature of metals. Bad condition – many pages missing.
Gershom Bulkeley Collection, HMS MSS 10.
Pages with no extant binding. Discusses Hippocrates, Galen, and Aristotle. Possibly a transcription of van Helmont.
Gershom Bulkeley Collection, HMS MSS 12. A medical account book. Gershom Bulkeley Collection, HMS MSS 14. Medical and chemical notes kept by Gershom and a family member. Gershom Bulkeley Collection, HMS MSS 15.
“The Invoyce of Goods bought of Mr. Thomas Bulkeley, July 3, 1684.” Merged with chemical notes.
Gershom Bulkeley Collection, HMS MSS 16.
A transcription of Lazarus Riverus, Praxis Medica. Date of work given as 1660. Transcribed 1673.
Gershom Bulkeley Collection, HMS MSS 17.
Includes two Latin volumes, a Chemica Rationali, Collecta, dated 1687, and a Praxis Chemiatrica Rationalis. Transcription dated 1694. Also includes 1695 letter from Isaac Chauncy of London.
Gershom Bulkeley Collection, HMS MSS 18.
A collection of alchemical treatises, including Digby’s Chymicall Secrets and
75
Rare Experiments In Physicke and Philosophy. Gershom Bulkeley Collection, HMS MSS 19.
Collection of treatises, including excerpts from the History of the Royall Society of London.
Gershom Bulkeley Collection, HMS MSS 20. A transcription of Medicine for Poor People. Gershom Bulkeley Collection, HMS MSS 21. A tiny fragment out of a larger book concerning medicine and alchemy. Gershom Bulkeley Collection, HMS MSS 22. Pharmacopoeia in Latin; transcription dated 1700. Gershom Bulkeley Collection, HMS MSS 23. A small notepad of “Medicall and Chymicall observations.” Gershom Bulkeley Collection, HMS MSS 24.
The Family Physician by George Hartman, physio-chemist, London, dated 1696. Not in Bulkeley's handwriting.
Gershom Bulkeley Collection, Watkinson Library, Trinity College, Hartford,
Connecticut.
This collection includes the Vade Mecum, Bulkeley’s synthesis of his medical and chemical knowledge, as well as two small medical handbooks, an account book, four pages of a medical log, a book on fevers, and another small Latin medical work.
Houpreght, John Frederick. Aurifontina Chymica. London: William Cooper, 1680.
Contains alchemical treatises attributed to authors such as Nicholas Flamel and George Ripley.
Linden, Stanton J., ed. The Alchemy Reader: From Hermes Trismegistus to Isaac
Newton. Cambridge: Cambridge University Press, 2003.
A well-rounded overview of alchemy through a collection of primary source material. Includes ancient texts, Islamic and medieval texts, and Renaissance and
76
seventeenth-century texts. This third part contains excerpts from practitioners such as Starkey, Boyle, and Newton.
Milbourn, Thomas, ed. The Works of the Highly Experienced and Famous Chymist, John
Rudolph Glauber. London: D. Newman and W. Cooper, 1689.
Chemical treatises by Glauber. Important here for its listing of Isaac Chauncy on the subscribers’ page.
Morton, Charles. “Compendium Physicae.” Publications of the Colonial Society of
Massachusetts, Vol. 33. Boston: Published by the Society, 1940. ________. “A Synopsis of Naturall Philosophy according to the Method of the Ancients
but improved and augmented with the Notions of Later Philosophers.” Manuscript. 1680. Harvard University Archives.
Both the printed and manuscript copies of Morton’s manuscript demonstrate the type of natural philosophy taught at Harvard in the late seventeenth and early eighteenth centuries.
“New England’s First Fruits.” Curriculum 1642 General Folder, Harvard University
Archives.
This page-sized chart lays out the study schedule of an undergraduate at Harvard in the middle of the seventeenth century.
Sibley, John Langdon. “John Allin.” In Biographical Sketches of Graduates of Harvard
University, Vol. 1, 93-101. Cambridge, MA: Charles William Sever, 1873. Sibley’s work contains many excerpts from Allin’s letters, unavailable elsewhere. Thomas and Rebecca Vaughan’s Aqua Vitae: Non Vitis. Donald R. Dickson, ed. And
trans. Tempe, AZ: Arizona Center for Medieval and Renaissance Studies, 2001. Their recipes reflect the influence of Sendivogius’s central nitre theory. Weinberger, Jerry, ed. Francis Bacon: New Atlantis and The Great Instauration.
Wheeling, IL: Harlan Davidson, 1989.
Bacon’s fictional New Atlantis is important to seventeenth-century science for its depiction of the House of Solomon, where empirical scientific facts both existed and were conceptually distinct from theory.
Wigglesworth, Michael. MS Notebook. 1651. Harvard University Archives.
77
Contains his anti-Aristotelian commencement dissertation and also a Physicae Compendium in Latin, discussing matter theory, by Jonathan Mitchell.
Secondary Sources Ahonen, Kathleen. Johann Rudolph Glauber: A Study of Animism in Seventeenth-
Century Chemistry. Ph.D. thesis, University of Michigan, 1972. Ann Arbor, MI: University Microfilms, 1994.
A comprehensive look at the alchemy of Glauber, including both theory and practice, placing him within the alchemical tradition of neoplatonic animism.
Atwood, Mary Anne. A Suggestive Inquiry into the Hermetic Mystery. Belfast: William
Tait, 1918.
An influential work in popularizing the spiritual interpretation of alchemy. Sees alchemy as neoplatonic self-perfection.
Barrett, Francis. The Magus. London: Lackington, Allen, and Co., 1801; Secaucus, NJ:
Citadel, 1967.
A complete system of occult philosophy. Discusses alchemy alongside such practices as numerology, astrology, and magic.
Biagioli, Mario. “Etiquette, Interdependence, and Sociability in Seventeenth-Century
Science.” Critical Inquiry 22, no. 2 (Winter 1996): 193-238. Deals with the social influences of scientific practice in the seventeenth century. Black III, Robert C. The Younger John Winthrop. New York: Columbia University
Press, 1966.
A comprehensive biography of John Winthrop, Jr., which downplays his alchemical interests while emphasizing his interest in nature.
Brockliss, Laurence. “Curricula.” In A History of the University in Europe, Vol. 2:
Universities in Early Modern Europe, 1500-1800, ed. Hilde de Ridder-Symoens, 565-620. Cambridge: Cambridge University Press, 1992.
Discusses the curricular developments of European universities in the early modern period, including the seventeenth century. The volume as a whole provides a vast array of information about the European university, from student life to the impact of the Scientific Revolution.
78
Bronfenbrenner, Martha O. The Role of Scientific Societies in the Seventeenth Century. Ph.D. Thesis, Columbia, 1913. Chicago: University of Chicago Press, 1938.
A somewhat dated look at European scientific societies in the seventeenth century. Includes discussions of Italian societies, the Royal Society, and the Paris Académie des Sciences.
Burton, John D. Crimson Missionaries: Harvard College and the Robert Boyle Trust.
Master’s Thesis, William and Mary, 1989. Harvard University Archives.
Discusses Robert Boyle’s involvement with the attempt to convert Native Americans to Christianity.
Christianson, John Robert. On Tycho’s Island: Tycho Brahe and His Assistants, 1570-
1601. Cambridge: Cambridge University Press, 2000.
Takes a deep look at the life, work, and legacy of the respected astronomer Tycho Brahe, significant here for his Paracelsian scientific beliefs.
Clymer, R. Swinburne. Alchemy and the Alchemists. Allentown, PA: The Philosophical
Publishing Co., 1907.
Follows the spiritual interpretation of alchemy, asserting that the first aim of the alchemist is the perfection of his own nature.
Cohen, Sheldon S. A History of Colonial Education, 1607-1776. New York: Wiley &
Sons, 1974. Gives an overview of both lower and higher education in the colonies. Coudert, Allison. Alchemy: The Philosopher’s Stone. London: Wildwood House, 1980.
A popular work, strongly influenced by Jung and the spiritual interpretation of alchemy.
Darnton, Robert. Mesmerism and the End of the Enlightenment in France. Cambridge,
MA: Harvard University Press, 1968.
Describes Franz Anton Mesmer and the mystical approach to nature of his animal magnetism, or mesmerism, in late eighteenth-century France.
Daston, Lorraine. “Baconian Facts, Academic Civility, and the Prehistory of
Objectivity.” Annals of Scholarship 8, no. 3/4 (1991): 337-363.
Examines the advent of the scientific fact and the social aspects of seventeenth-century scientific practice.
79
Dear, Peter. Revolutionizing the Sciences: European Knowledge and Its Ambitions,
1500-1700. Princeton, NJ: Princeton University Press, 2001.
Provides an overview of the period generally called “the Scientific Revolution.” Includes important background, context, and information on such important figures as Paracelsus, Bacon, and Newton.
Debus, Allen G. “Buintherius, Libavius and Sennert: The Chemical Compromise in
Early Modern Medicine.” In Science, Medicine, and Society in the Renaissance: Essays to honor Walter Pagel, ed. Allen G. Debus, Vol. 1, 151-165. New York: Science History Publications, 1972.
Describes the compromise and mutual assimilation between the Galenic and Paracelsian schools of medicine.
________. The Chemical Philosophy: Paracelsian Science and Medicine in the Sixteenth
and Seventeenth Centuries. New York: Science History Publications, 1977; New York: Dover, 2002.
Discusses Paracelsus, his philosophy, his impact, the debates surrounding his work, and his intellectual descendants.
________. “Chemists, Physicians, and Changing Perspectives on the Scientific Revolution.” Isis 89, no. 1 (March 1998): 66-81.
An excellent essay which explores the historiography of the debates incurred by the Paracelsian chemical philosophy.
________. “Paracelsianism and the Diffusion of the Chemical Philosophy in Early
Modern Europe.” In Paracelsus: The Man and his Reputation, His Ideas and Their Transformations, ed. Ole Peter Grell, 225-244. Boston: Brill, 1998.
Follows the spread of Paracelsian medicine through Europe. The collection of essays contains works on the historical study of Paracelsus, the social and religious aspects of Paracelsus, and Paracelsian philosophical and medical practices and theories.
________. “The Paracelsians in 18th Century France.” Ambix 28, no. 1 (March
1981): 36-54.
Another work by Debus describing the impact of Paracelsus and Paracelsian medicine.
________. “The Significance of Chemical History.” Ambix 32, no. 1 (March 1985):
1-14.
80
Discusses the history of chemistry and its importance for understanding the present as well as the past.
Deleuze, Giles and Félix Guattari. A Thousand Plateaus: Capitalism and Schizophrenia.
Brian Massumi, trans. London: Athlone, 1988.
A work of philosophy noteworthy here for its concept of the rhizome, akin to a non-hierarchical network in which each point is connected to every other point – one possible approximation of knowledge transmission in the seventeenth century.
Dobbs, Betty Jo Teeter. The Foundations of Newton’s Alchemy. Cambridge: Cambridge
University Press, 1975.
An investigation of Newton’s alchemical practice, which Dobbs sees as a religious endeavor distinct from Newton’s mechanical philosophy.
________. “Studies in the Natural Philosophy of Sir Kenelm Digby: Part II, Digby and
Alchemy.” Ambix 20, no. 3 (November 1973): 143-163. ________. “Studies in the Natural Philosophy of Sir Kenelm Digby: Part III, Digby's
Experimental Alchemy – the Book of Secrets.” Ambix 21, no. 1 (March 1974): 1- 28.
Studies of the life and alchemical practice of the seventeenth-century natural philosopher and alchemist Sir Kenelm Digby.
Eliade, Mircea. The Forge and the Crucible. Stephen Corrin, trans. New York: Harper,
1962. ________. Occultism, Witchcraft, and Cultural Fashions: Essays in Comparative
Religions. Chicago: University of Chicago Press, 1976.
Eliade popularized the interpretation of alchemy as a cross-cultural mythological and religious practice.
Eliot, Alexander. The Universal Myths: Heroes, Gods, Tricksters and Others. New
York: Penguin, 1976. An example of Mircea Eliade’s influence. Discusses universal mythic themes. Fitzmaurice, Andrew. Humanism and America: An Intellectual History of English
Colonisation, 1500-1625. Cambridge: Cambridge University Press, 2003.
81
Sees humanism in all aspects of American colonization – for example, the classical ideal of glory as an impetus for colonization itself.
Gelman, Zahkar E. “Angelo Sala, An Iatrochemist of the Late Renaissance.” Ambix 41,
no. 3 (November 1994): 142-160.
Describes the life and work of Sala, a Paracelsian iatrochemist who sought to reconcile Galenic and Paracelsian medicine.
Green, V. H. H. A History of Oxford University. London: B. T. Batsford, 1974.
An overview of the history and development of Oxford University. Includes two chapters which discuss life and education at Oxford in the seventeenth century.
Greengrass, Mark. “Archive Refractions: Hartlib’s Papers and the Workings of an
Intelligencer.” In Archives of the Scientific Revolution: The Formation and Exchange of Ideas in Seventeenth-Century Europe, ed. Michael Hunter, 35-47. Woodbridge, UK: Boydell, 1998.
Describes the vast holdings of the Hartlib archive.
Haq, Syed Nomanul. Names, Natures, and Things: The Alchemist Jabir ibn Hayyan and
his Kitab al-Ahjar (Book of Stones). Boston Studies in the Philosophy of Science. Robert S. Cohen, ed. Boston: Kluwer, 1994.
A complex exposition of the interesting alchemical theory and practice of Jabir, who based his alchemical recipes upon the syllables of an ingredient’s name.
Harris, Steven J. Jesuit Ideology and Jesuit Science: Scientific Activity in the Society of
Jesus, 1540-1773. Ph.D. Thesis, Wisconsin-Madison, 1988. Ann Arbor, MI: University Microfilms, 2001.
________. “Mapping Jesuit Science: The Role of Travel in the Geography of
Knowledge.” In The Jesuits: Cultures, Sciences, and the Arts, 1540-1773, ed. J. W. O’Malley, et al., 212-240. Toronto: University of Toronto Press, 1999. In these two works, Harris discusses Jesuit scientific activity in the early modern period. The thesis discusses the society, its ideology, and scientific practice; the journal article identifies Italy as the central node which transmitted scientific knowledge to, and received scientific knowledge from, missionaries traveling abroad.
Heinecke, Berthold. “The Mysticism and Science of Johann Baptista van Helmont
(1579-1644).” Ambix 42, no. 2 (July 1995): 65-78. Overview of the theories of van Helmont.
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Henry, John. The Scientific Revolution and the Origins of Modern Science, 2nd Ed. New
York: Palgrave, 2002.
Outlines the major figures of the Scientific Revolution and places the origins of modern science within the neoplatonic tradition of natural magic.
Hitchcock, Ethan Allen. Alchemy and the Alchemists. Boston: Crosby, Nichols, and
Company, 1857.
Hitchcock, along with Mary Anne Atwood, helped popularize the spiritual interpretation of alchemy.
Hopkins, Arthur John. Alchemy: Child of Greek Philosophy. New York: Columbia,
1934.
Portrays alchemy as beginning with Greek philosophy and receiving its deathblow from Lavoisier; attempts to cover all major alchemists in between. Emphasizes a spiritual component of laboratory practice.
Howell, Wilbur Samuel. Logic and Rhetoric in England, 1500-1700. New York: Russell
and Russell, 1961. Discusses developments in logic in sixteenth- and seventeenth-century England. Hunter, Michael. Establishing the New Science: The Experience of the Early Royal
Society. Woodbridge, UK: Boydell, 1989.
Discusses the early Royal Society, including strategies for development and self-promotion.
Hurley, J. Finley. Sorcery. Boston: Routledge & Kegan Paul, 1985.
A very helpful work for the aspiring magician. Less helpful for the aspiring scholar. Enjoyable nonetheless.
Inwood, Stephen. The Man Who Knew Too Much: The Strange and Inventive Life of
Robert Hooke. London: Macmillan, 2002.
A biography of Robert Hooke. Discusses in detail his dealings with the Royal Society. Defends Hooke from accusations of being self-centered or disagreeable and presents him as inventive and energetic.
Jantz, Harold. “America's First Cosmopolitan.” In Proceedings of the Massachusetts
Historical Society, 1972, Vol. 84, 3-25. Boston: Published by the Society, 1973.
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A life of John Winthrop, Jr., which discusses his alchemical interests. Jodziewicz, Thomas W. “A Stranger in the Land: Gershom Bulkeley of Connecticut.”
Transactions of the American Philosophical Society, 1988. The American Philosophical Society: Independence Square, Philadelphia, 1988. 78(2).
Examines the life of Gershom Bulkeley. Briefly covers his medical practice while focusing on his political views.
Jung, C. G. Psychology and Alchemy. 2nd ed. Translated by R. F. C. Hull. Princeton,
NJ: Princeton University Press, 1968.
Jung assumes the spiritual interpretation of alchemy to be true and rationalizes alchemical writing by claiming that authors’ metaphors reflect psychic projections from the collective unconscious. Jung’s arguments served as the primary impetus for infusing the spiritual interpretation of alchemy into alchemical scholarship of the twentieth century.
King, Lester S. The Philosophy of Medicine. Cambridge, MA: Harvard University Press,
1978.
Discusses the philosophy of medicine in the seventeenth and early eighteenth centuries, including iatrochemistry and chemical physicians.
Lindemann, Mary. Medicine and Society in Early Modern Europe. Cambridge:
Cambridge University Press, 1999.
Provides a good overview of many aspects of medicine in early modern Europe, including epidemics, medical education, medical practice, hospitals, and an introduction to Paracelsian medicine.
Lloyd, G. E. R. Early Greek Science: Thales to Aristotle. New York: Norton, 1970. Outlines the theories of the major Greek philosophers. Lux, David S. and Harold J. Cook. “Closed Circles or Open Networks?: Communicating
at a Distance During the Scientific Revolution.” History of Science 36 (1998): 179-211.
Lux and Cook discuss the transmission of scientific knowledge, as well as the importance of weak ties binding together different scientific circles.
Martin, Jr., Luther H. “A History of the Psychological Interpretation of Alchemy.”
Ambix 22, no. 1 (March 1975): 10-20.
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Traces the psychological interpretation of alchemy from Jung’s predecessors to the late twentieth century.
Merkur, Daniel. “The Study of Spiritual Alchemy: Mysticism, Gold-Making, and
Esoteric Hermeneutics.” Ambix 37, no. 1 (March 1990): 33-45. Another discussion of spiritual or psychological alchemy. Morison, Samuel Eliot. “Harvard College in the Seventeenth Century.” The
Tercentennial History of Harvard College and University, 1636-1936. Cambridge, MA: Harvard University Press, 1936.
Morison is a historian of Harvard, and my knowledge of the College in the seventeenth century would have been nearly nonexistent if not for his valuable, comprehensive work.
Newman, William R. “The Background to Newton’s Chymistry.” In The Cambridge
Companion to Newton, ed. I. B. Cohen and George E. Smith, 358-369. Cambridge: Cambridge University Press, 2002.
Discusses the influence of George Starkey’s corpuscular matter theory, which drew heavily upon van Helmont and Sendivogius, on the alchemy of Isaac Newton.
________. “Boyle’s Debt to Corpuscular Alchemy.” In Robert Boyle Reconsidered, ed.
Michael Hunter, 107-118. Cambridge: Cambridge University Press, 1994.
Newman offers much the same analysis here with respect to Boyle as he does above for Isaac Newton, comparing Boyle to the medieval pseudo-Geber, whose matter theory influenced Starkey.
________. “The Corpuscular Transmutational Theory of Eirenaeus Philalethes.” In
Alchemy and Chemistry in the 16th and 17th Centuries, ed. Piyo Rattansi and Antonio Clericuzio, 161-182. Boston: Kluwer, 1994.
________. Gehennical Fire: The Lives of George Starkey, an American Alchemist in the
Scientific Revolution. Cambridge, MA: Harvard University Press, 1994.
Newman goes into great detail discussing both the matter theory espoused by Starkey and his pseudonym, Eirenaeus Philalethes, and their influence on alchemy in England. His historiographical approach is worthy of emulation.
________. Personal conversation. 23 November 2003.
This is where Professor Newman pointed out Gershom Bulkeley to me as an
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important figure in the history of alchemy who had not received serious study. My thesis would have been impossible without his advice.
________. “Prophecy and Alchemy: The Origin of Eirenaeus Philalethes.” Ambix 37,
no. 3 (November 1990): 97-115. Identifies George Starkey as the author of the Philalethes corpus. ________. The Summa Perfectionis of Pseudo-Geber: A Critical Edition, Translation,
and Study. New York: Brill, 1991.
Newman offers a translation and analysis of the late thirteenth century alchemical text that spawned the corpuscular tradition of alchemy, which would influence not only Starkey and Newton but all of seventeenth-century alchemy.
Newman, William R. and Lawrence M. Principe. “Alchemy vs. Chemistry: The
Etymological Origins of a Historiographic Mistake.” Early Science and Medicine 3 (1998): 32-65.
Outlines the reasons for the mistaken impression that alchemy and chemistry were distinct practices in the seventeenth century.
Owens, Joseph. A History of Ancient Western Philosophy. New York: Appleton-
Century-Crofts, 1959. Describes Greek philosophy, including Aristotle and his Physics. Pagel, Walter. Joan Baptista van Helmont: Reformer of Science and Medicine.
Cambridge: Cambridge University Press, 1982.
Discusses van Helmont’s conception of nature, biology, and disease, but not matter theory.
Pagel, Walter. Paracelsus. 2nd Ed. New York: Karger, 1982. Paracelsus’s life, works, and philosophy. Pearsall, Ronald. The Alchemists. London: Weidenfeld and Nicolson, 1976. A history of alchemy which equates alchemical theory with wish-fulfillment. Porto, Paulo Alves. “Michael Sendivogius on Nitre and the Preparation of the
Philosopher’s Stone.” Ambix 48, no. 1 (March 2001): 1-16. The importance of saltpeter in the alchemical pursuits of Sendivogius.
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Principe, Lawrence M. “Apparatus and Reproducibility in Alchemy.” In Instruments and Experimentation in the History of Chemistry, ed. Frederic L. Holmes and Trevor H. Levere, 55-74. Cambridge, MA: MIT Press, 2000.
Proves that the language used by alchemists to describe their reaction vessels had a basis in what they actually saw and was not entirely metaphorical.
Principe, Lawrence M. and William R. Newman. “Some Problems with the
Historiography of Alchemy.” In Secrets of Nature: Astrology and Alchemy in Early Modern Europe, ed. Newman and Grafton, 385-431. Cambridge, MA: MIT Press, 2001.
This essay provides a firm grounding in the historiographical development of the study of alchemy.
Rachleff, Owen S. The Occult Conceit: A New Look at Astrology, Witchcraft, and
Sorcery. Chicago: Cowles, 1971.
A work reflecting the power of the Enlightenment reaction against alchemy. Here, alchemy is grouped together with other “occult” practices such as astrology, and the author heroically debunks it as nothing more than sorcery and fraud.
Rattansi, P.M. “The Helmontian-Galenist Controversy in Restoration England.” Ambix
12, no. 1 (February 1964): 1-23.
Describes the debates between the Galenic and Paracelsian schools of medical thought.
Rowling, J. K. Harry Potter and the Philosopher’s Stone. London: Bloomsbury, 1997. A popular culture portrayal of alchemy as magic. Shapin, Steven. “The Problematic Identity of the Scientific Practitioner in Early Modern
England.” History of Science 29 (1991): 279-327. ________. The Scientific Revolution. Chicago: University of Chicago Press, 1996. ________. A Social History of Truth: Civility and Science in Seventeenth-Century
England. Chicago: University of Chicago Press, 1994.
Shapin examines the social factors involved in the creation of knowledge and practice science in the seventeenth century; his work is crucial for an understanding of the character of scientific knowledge of the time.
Shapin, Steven, and Simon Schaffer. Leviathan and the Air-Pump: Hobbes, Boyle, and
the Experimental Life. Princeton, NJ: Princeton University Press, 1985.
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Examines Thomas Hobbes, Robert Boyle, and the nature of science and fact in the seventeenth century.
Simon, Jonathan. “The Chemical Revolution and Pharmacy: A Disciplinary
Perspective.” Ambix 45, no. 1 (March 1998): 1-13.
Shows that alchemy and pharmacy were not distinct disciplines during the seventeenth century.
Siraisi, Nancy G. Medieval & Early Renaissance Medicine: An Introduction to
Knowledge and Practice. Chicago: University of Chicago Press, 1990.
Discusses many aspects of medieval Galenic medicine, including medical education, anatomical theories, conceptions of disease, and medical practice.
Szydlo, Zbigniew. “The Alchemy of Michael Sendivogius: His Central Nitre Theory.”
Ambix 40, no. 3 (November 1993): 129-146. ________. “The Influence of the Central Nitre Theory of Michael Sendivogius on the
Chemical Philosophy of the Seventeenth Century.” Ambix 43, no. 2 (July 1996): 80-96.
These two works investigate the matter theory of Sendivogius, the importance he attributed to saltpeter, and his influence on subsequent alchemists.
Taylor, F. Sherwood. The Alchemists: Founders of Modern Chemistry. New York:
Henry Schuman, 1949.
Attempts to give an overview of the entire history of alchemy. Presents alchemy as a practical pursuit with a strong spiritual component.
Trifogli, Cecilia. “Matter and Form in Thirteenth-Century Discussions of Infinity and
Continuity.” In The Dynamics of Aristotelian Natural Philosophy from Antiquity to the Seventeenth Century, ed. Leijenhorst, Lüthy, and Thijssen, 169-187. Boston: Brill, 2002.
Describes the idea that matter was thought to be neither infinitely expandable nor infinitely divisible in the thirteenth century.
Von Franz, Marie-Louise. “The Idea of the Macro- and Microcosmos in the Light of
Jungian Psychology.” Ambix 13, no. 1 (February 1965): 22-34.
A work heavily influenced by Jung which analyzes Paracelsian-derived philosophy.
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Waite, Arthur Edward. Book of Ceremonial Magic. London: 1911; Maple Shade, NJ: Lethe, 2002.
________. Lives of Alchemystical Philosophers. London: George Redway, 1888.
Waite associates alchemy with the occult and shows that the spiritual interpretation of alchemy was quite prevalent by the late nineteenth century.
Webster, C. “English Medical Reformers of the Puritan Revolution: A Background to
the ‘Society of Chymical Physitians.’” Ambix 14, no. 1 (February 1967): 16-41.
Discusses the Society of Chymical Physitians, an attempt to institutionalize Paracelsian resistance to Galenic medicine.
Wilkinson, Ronald Sterne. “The Alchemical Library of John Winthrop, Jr. (1606-1676)
and His Descendents in Colonial America.” Ambix 11, no. 1 (February 1963): 33-51.
________. “The Alchemical Library of John Winthrop, Jr. (1606-1676) and His
Descendents in Colonial America.” Ambix 13, no. 3 (October 1966): 139-186. ________. “George Starkey, Physician and Alchemist.” Ambix 11, no. 3 (October
1963): 121-152. ________. “‘Hermes Christianus:’ John Winthrop, Jr. and Chemical Medicine in
Seventeenth Century New England.” In Science, Medicine, and Society in the Renaissance: Essays to honor Walter Pagel, ed. Allen G. Debus, Vol. 1, 221-241. New York: Science History Publications, 1972.
________. “Letter to the Editor on the Identity of ‘Eirenaeus Philalethes.’” Ambix 19,
no. 3 (November 1972): 204-208. ________. “New England’s Last Alchemists.” Ambix 10, no. 3 (October 1962): 128-
138. ________. “Some Bibliographical Puzzles Concerning George Starkey.” Ambix 20, no.
3 (November 1973): 235-244.
Sterne investigates alchemy in the colonies. His second article on Winthrop’s library gives a complete inventory.
Withers, C. W. J. “Reporting, Mapping, Trusting: Making Geographical Knowledge in
the Late Seventeenth Century.” Isis 90, no. 3 (September 1999): 497-521.
Discusses the importance of social factors such as trust for the production of scientific knowledge in the seventeenth century.
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