Italy
Italy
Exhibit items related to Italy.
Exhibit Items
Astronomical Poem Hyginus, (1485) Greek writers compiled ancient stories of the constellations, often in poetic form, with memorable instructions for locating bright stars and zodiac constellations. Constellations of the zodiac contain the wandering courses of the planets and the annual path of the Sun. |
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Celestial Globe Gores Coronelli, Vincenzo (1693; reprint ca. 1800) Coronelli, a Franciscan theologian and astronomer who worked in both Italy and France, was a founder of modern geography and an influential maker of celestial and terrestrial globes. |
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Church of Santa Croce, Florence After his trial, Galileo remained under house arrest until his death on Jan 8, 1642. His will directed that his remains should be placed beside those of his father Vincenzo in the Church of Santa Croce. |
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Essays of the Members of the Academy of Gelati (1671) This is the scarce first edition of writings by a leading learned society in Bologna, the Accademia dei Gelati. The volume includes striking woodcuts by the astronomer Geminiano Montanari of white stars against a black background. |
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Starry Messenger Galileo, (1610) Featuring Galileo's Handwriting. When Galileo heard news of telescopes invented in the Netherlands he worked out the underlying geometry and crafted one of his own design. In this work, Galileo published the first observations of the heavens made with the telescope. |
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The Works of Giorgio Vasari, vol. 1 Vasari , Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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On the Fixed Stars Piccolomini, Alessandro (1540) In contrast to the constellation figures in Hyginus and Abu Ma’shar, Piccolomini created a star atlas, measuring the positions of the stars according to an indicated scale (specific to each plate). He designated stars by Roman letters (a, b, c, etc.) in order of apparent brightness. |
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The Works of Giorgio Vasari, vol. 2 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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The Works of Giorgio Vasari, vol. 3 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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Galileo Telescope replica ( ) The optics, leather and gold tooling of the telescope suggest how scientific instruments were crafted with a combination of engineering expertise and bookbinding arts. Galileo’s telescope included two lenses, an ocular lens near the eye, and an objective lens at the far end of the tube. |
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Moral Essays Alberti, Leon Battista (1568) This anthology of the works of Alberti, a humanist scholar, contains the printed edition of his treatise, “On Painting,” a work he originally dedicated to Brunelleschi. |
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The Works of Giorgio Vasari, vol. 4 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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Perspective Peckham, John (1556) The Perspectiva of Peckham (13th century) became the established university textbook on perspective. It was the text Galileo likely used in his early studies of optics. Renaissance artists were well-versed in the classic works on perspective. |
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The Works of Giorgio Vasari, vol. 5 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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Giuseppe Campani Microscope replica This is a replica of a microscope that is very much like one of the microscopes Galileo might have created. Indeed, it was once believed to have been made by Galileo, but is now attributed to Campani. |
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New Celestial and Terrestrial Observations Fontana, Francesco (1646) Inspired by Galileo, Fontana constructed his own telescope, improving the optics. Around 1629 he began a series of detailed sketches of the face of the Moon. A series of 28 copperplate engravings reveal the Moon’s surface as perceived on different dates, as well as a fold-out lunar map. |
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Principles of Geometry Dürer, Albrecht (1535) This landmark work by Albrecht Dürer presents several variations on the technique of “Alberti’s window.” Here the artist is creating a drawing of a lute with true perspective by means of a string drawn from the object, through the canvas window, to the vanishing point on the wall. |
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The Works of Giorgio Vasari, vol. 6 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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On Bees Stelluti, Francesco (1625) In this poster-sized work, the first publication of observations made with a microscope, Cesi and Stelluti studied the anatomy of the bee. The text includes classical references to bees as well as new knowledge, integrated in a tabular outline. |
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The Divine Proportion Pacioli, Luca (1509) Consider this geometrical drawing, portrayed with true perspective and a mastery of light and shadow. It comes from a treatise on art and mathematics by Luca Pacioli, yet it was not drawn by Pacioli. |
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The Works of Giorgio Vasari, vol. 7 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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The Practice of Perspective Sirigatti, Lorenzo (1596) This beautiful work by Sirigatti, published in 1596, brings the tradition of perspective drawing up to Galileo’s time. Sirigatti was a member of the Academy of Drawing (Accademia del Disegno), a school for artists and engineers where Galileo studied as a young man. |
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The Works of Giorgio Vasari, vol. 8 Vasari
, Giorgio (1878-85) Astronomers and artists alike studied the science of perspective. The title page of the Sidereus nuncius refers to the telescope as a little “perspective tube” (perspicilli). |
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Treatise on Painting da Vinci, Leonardo (1651) Despite a lack of publications, Leonardo’s fame grew as word of his notebooks spread. The first book by Leonardo to be printed was his Treatise on Painting, published a century after his death. |
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Works… A New Science Tartaglia, Niccolo (1606) Niccolò Tartaglia argued for the use of mathematics in physics, engineering and art. Tartaglia’s frontispiece shows Euclid guarding the gate of knowledge. Just inside, Perspectiva stands among the sciences that open the way to Philosophia. |
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The Great Art of Light and Shadow Kircher, Athanasius (1646) A “camera obscura” (“dark room”) consists of a box or container in which light enters via a small hole and projects an image on an opposite wall. The image will be reversed and upside-down, but its proportions will be preserved. |
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Three Jesuit Portraits: Loyola, Bellarmine, Clavius |
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Observations on living things, with curious microscopic studies Bonanni, Philippo (1691) |
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Investigations regarding the Internal Anatomy and Generation of Insects Redi, Francesco (1668) |
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Almagest, ed. Regiomontanus Ptolemy, Claudius (1496) Ptolemy (Claudius Ptolemaios) lived in Alexandria, Egypt, in the second century. Ptolemy’s technical work on astronomy, originally written in Greek, was titled Almagest (“The Greatest”) by its Arabic translators. |
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On the Fabric of the Human Body, 1555 Vesalius, Andreas (1555) This book is without doubt the most handsome anatomical work of the 16th century. Vesalius was fortunate to team up with Jan Stephan van Calcar, a world class artist. Even the human skeletons reveal an aesthetic appreciation of the human body. |
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The Ancient and Modern Doctrines of the Holy Fathers Galileo, (1636) In response to gathering criticism, Galileo in 1615 wrote a reconciliation of Scripture and Copernicanism which circulated in manuscript as the Letter to the Grand Duchess Christina. This is the first printed edition, which appeared in 1636. |
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The System of Saturn Huygens, Christiaan (1659) In this work, Huygens resolved the enigma of Saturn’s changing telescopic appearance by proposing that a ring surrounds Saturn at an angle, varying in visibility from the Earth. |
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Letters on Sunspots Galileo, (1613) In a 1611 book published by the Academy of the Lynx, the Jesuit astronomer Christoph Scheiner argued that sunspots are little planets circling the Sun like Venus. Galileo answered Scheiner with this book. |
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Anatomy, 1507 Luzzi, Mondino dei (1507) Medieval human dissection manual: Written in 1316 by a professor of medicine at the University of Padua, the Anatomy of Mondino was the most widely-used manual for human dissection in the middle ages. |
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The Marriage of Philology and Mercury Capella, Martianus (1499) Capella described the seven liberal arts. The first three are grammar, logic or dialectic, and rhetoric. Then come the mathematical sciences, geometry and arithmetic. Geometrical circles in motion make astronomy. Numbers in motion make music. |
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Dialogue on Ancient and Modern Music Galilei, Vincenzo (1581) From childhood, Galileo’s world was shaped by music. His father, Vincenzo Galilei, was a prominent music theorist who contributed to the development of Italian opera. This book, Vincenzo’s major work, was acquired in Fall 2014 with assistance from the Athletics Department. |
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Elements of Geometry, 1482 Euclid, (1482) Euclid was the starting point for a mathematical approach to physics. This is the 1st printed edition. The beautiful woodcuts are hand-colored in this copy. The text of the first page was printed in both black and red ink. The geometrical diagrams were quite difficult to prepare. |
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The Divine Comedy Dante, (1757) Dante’s love for astronomy pervaded this epic poem. Not by accident did he bring each of the three volumes to a close with the word “stelle,” or star. |
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The Divine Plato Plato, (1491) In his dialog entitled The Timaeus, Plato taught that the cosmos is constructed from regular geometrical figures known as the Pythagorean solids. Wherever one finds an emphasis upon mathematical demonstrations in science, one may credit Plato and the Pythagoreans. |
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Persius Stelluti, Francesco (1630) The title page of this classical study by Stelluti displays the emblem of the Lynx. The crest with three bees is that of the powerful Barberini family. |
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Polyhedral Sundial replica This is a replica of an original polyhedral sundial created by Stefano Buonsignori in Florence in 1587, held in the Museo Galileo in Florence. |
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Book on Calculation Borgi, Pietro (1517) Borgi’s book on the abacus was the most important commercial arithmetic manual in Renaissance Italy. Around 1200, Leonardo of Pisa, also known as Fibonnacci, wrote an earlier manual for the abacus which introduced a sign for zero, Hindu-Arabic numerals, and a base-10 place value system. |
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The Operations of the Geometrical and Military Compass, 1606 Galilei, Galileo (1606) Featuring Galileo's Handwritting. Galileo dedicated the manual for his engineering compass to young Cosimo II de Medici, whom he had tutored in mathematics the previous summer. |
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Discourse on Two New Sciences Galileo, (1638) Under house arrest after his trial, Galileo turned his attention to a number of topics that had long interested him. This is his masterwork of physics, the last book of Galileo’s to be published in his lifetime. These two sciences concern tensile strength and motion. |
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On the Art of Fire Biringuccio, Vannoccio (1540) When Galileo needed to purchase plates of brass to make his engineering compass or commissioned glass to make better lenses, metalsmith, assayers and craftsmen in Venice employed operations similar to those described in Birunguccio’s metallurgical manual. |
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On the Christian Expedition to China Ricci, Matteo (1616) This book recounts the establishment of the Jesuit mission in China in the late 1500s led by Matteo Ricci. When Ricci predicted a solar eclipse in 1592 with greater accuracy than the astronomers of the Chinese court, Emperor Wan-li invited Ricci to Beijing. |
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A New Natural History of the Plants, Animals and Minerals of Mexico Hernandez, Francisco (1651) Publication of this work was widely anticipated as a guide to the “fountain of youth.” Hernandez enjoyed the reputation of being the “Pliny of the New World.” The result transformed Old World natural history. |
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The Interrogation of Plants Colonna, Fabio (1592) This book by Colonna, a member of the Lynx and a major contributor to the Hernandez natural history of Mexico, is the first book containing copperplate engravings of plants. |
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Plant Anatomy Porta, Giambattista della (1588) Della Porta’s portrayal of a lynx on the title page of this and other works inspired Cesi with the name for his own Academy. Here, della Porta announced the existence of the Accademia Secretorum Naturae, an academy he founded in Naples cx. 1580 with the aim of discovering the secrets of nature... |
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On the Three Comets of 1618 Grassi, Oratio (1619) In 1618, three comets appeared, visible to the unaided eye. These were the first comets to be observed with the telescope. Grassi was the leading astronomer in Rome and a professor at the Rome College (Collegio Romano). |
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On Natural History Imperato, Ferrante (1599) Cabinets of curiosity were museums in miniature, combining books, fossils, antiquarian and natural history objects. While in Naples to meet della Porta, Cesi met Ferrante Imperato. |
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The Ancient and Modern Doctrine of Holy Fathers Galileo, (1661) This volume contains the first English translations of any of Galileo’s works, including Galileo’s Dialogue on the Two Chief Systems of the World, the book for which he was put on trial. |
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Almagest, ed. Reinhold Ptolemy, Claudius (1549) Erasmus Reinhold, a professor at Wittenberg who was sympathetic to Copernicus, published the first Greek edition of Ptolemy’s Almagest. |
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The Angry Orlando Ariosto, Ludovico (1672) Ariosto’s famous epic poem is a lively, rambling, serial escapade from one humorous, ironic, sometimes ribald tall-tale to another. One example is the story of Duke Astolfo, Orlando’s cousin, who flew to the Moon in a chariot pulled by winged horses. |
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Galileo Compass replica Galileo’s engineering compass employed scales of his own innovative design, useful for an astonishing variety of calculations in the field. |
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Anatomy, 1541 Luzzi, Mondino dei (1541) Art and anatomy converging in an illustrated manual: These human figures are more than utilitarian: walking against a real background, posed as if revealing to our eyes the unseen beauty and wonder of human anatomy; they also reflect an increasingly artistic approach to the human body. |
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Principles of Astronomy Naibod, Valentin (1580) This Copernican cosmic section, the first published in Italy, appears in a sympathetic account, known to Tycho and to Kepler, which may have influenced Galileo. Naibod was a professor of mathematics at Padua who likely studied with Erasmus Reinhold in Wittenberg. |
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Astronomical Calendar, 1476 Regiomontanus, (1476) In this book, Regiomontanus predicted the positions of the Sun and Moon for 40 years. He designed a sundial to work independently of one’s latitude, and a volvelle, or circular dial, to locate the position and phase of the Moon according to date and time. |
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Euclid's Elements of Geometry, 1594 Al-Tusi, Nasir ad-Din (1594) This Arabic text of Euclid came from the circle of the Persian astronomer al-Tusi (13th century). Al-Tusi worked in Baghdad and in the observatory of Maragha, in modern northwestern Iran. Printing Arabic with moveable type was a technological challenge. |
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On Animals Aristotle, (1476) This is the first publication of Aristotle’s biological works. While Plato emphasized astronomy as the ennobling science, Aristotle insisted that biology, including the study of even the lowliest organisms, is beautiful to one who understands natural causes. |
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Works in Greek, vol. 1 Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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Natural Magic, 1589 Porta, Giambattista della (1589) In this poster-sized work, the first publication of observations made with a microscope, Cesi and Stelluti studied the anatomy of the bee. The text includes classical references to bees as well as new knowledge, integrated in a tabular outline. |
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The Art of Gymnastics Mercuriale, Girolamo (1577) What sports did they play in ancient Greece and Rome? This book by a leading physician of the Renaissance attempts to answer that question. Mercuriale once recommended Galileo for a university position. |
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Discourse on Floating Bodies Galileo, (1612) To provide entertainment at a dinner held by the Grand Duke of Tuscany, Galileo debated the Aristotelian physicist Lodovico delle Columbe on the topic of floating bodies. Galileo employed Archimedes’ mathematical analysis. |
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Theater of the World Gallucci, Giovanni Paolo (1588) Gallucci, a Venetian scholar, was interested in astronomical instruments, both physical and on paper. The “Theater of the World” features a parade of rotating wheels, or “volvelles,” descendants of the astrolabe. |
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Four Books Ptolemy, Claudius (1610) The most popular ancient work on astrology was Ptolemy’s Tetrabiblos, as it was known in Greek, or Quadripartitum in Latin. Astrology provided the context in which astronomy was pursued. |
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Observations in Bologna of the rotation of Mars around its axis Cassini, Giovanni Domenico (1666) These 3 broadsides, issued approximately 2 weeks apart, contain the first detailed illustrations of Mars. |
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The Recoverie of Jerusalem Tasso, Torquato (1624) This poem became one of the most widely read works of European literature in the 17th century. Tasso created serious characters with human flaws, psychological depth, and even melancholy, setting them in the inspirational but ambiguous era of the Crusades. |
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Heights of Theology Aquinas, Thomas (1496) Wormholes appear on the cover of this otherwise well-preserved medieval masterwork of theology. Aquinas represents the medieval synthesis of science and religion. He endorsed the principle of accommodation. |
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Commentary on the Sphere of Sacrobosco Clavius, Christoph (1570) Clavius taught mathematical astronomy in the Rome College (Collegio Romano), the leading Jesuit university in Rome. Aristotle did not emphasize mathematics, but Clavius’ lifelong work established mathematics and astronomy as essential areas of study for Jesuit schools. |
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Universal Music-Making Kircher, Athanasius (1650) This 17th-century treatise on music shows a mechanical, water-driven organ. Water enters on the right side of the diagram, turning a gear mechanism that animates a cylinder roll and keyboard. Musical notation cut into the cylinder roll determines the keys depressed for any given time. |
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Flowers, or, On the Cultivation of Flower Gardens, 1638 Ferrari, Giovanni Battista (1638) The Latin edition of this work mentioned the Lincean explorer, or microscope. This Italian translation of Ferrari’s work on flower gardens, published after Galileo’s trial in 1633, expunged any mention of the Academy of the Lynx. |
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On the Motion of Animals, 1685 Borelli, Giovanni (1685) This work of sports medicine analyzes the physics of bones and muscles. Borelli, a practicing mathematician and engineer as well as a physician, analyzed the musculoskeletal system in terms of the mechanics of the lever and other simple machines. |
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Euclide Tartaglia, Niccolo (1543) Tartaglia, a teacher of a teacher of Galileo, produced the first vernacular translation of Euclid’s Elements of Geometry. |
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Works in Greek, vol. 2 Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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School of the Stars Capra, Baldessar (1606) Galileo kept the design of his engineering compass carefully guarded, yet a dispute over intellectual property rights ensued. In 1607, Baldassar Capra published under his own name a Latin translation of Galileo's Compasso, including instructions for making the instrument. |
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On Pneumatics Porta, Giambattista della (1606) Della Porta explored various ideas for steam powered machines following the example of Hero of Alexandria. In antiquity, Hero fashioned marvelous automata using steam, air pressure, and hydraulics. |
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On the Dream of Scipio Macrobius, (1521) This work by Macrobius (5th century) illustrates the wealth of ancient and early medieval literary sources relevant to cosmology. Macrobius here comments upon a classic story of Cicero which described a vision given to the Roman general Scipio. |
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The Natural History of Plants, 1549 Theophrastus, (1549) What Aristotle did for animals, his student Theophrastus did for plants, making the study of plants an essential topic for ancient natural philosophers. Theophrastus sought not merely to describe the appearances of plants, but like his mentor Aristotle, to ascertain their causes. |
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Natural Magick, 1658 Porta, Giambattista della (1658) In Natural Magick, della Porta described an optical tube he designed to make far things appear as though they were near. The field of optics was often associated with magical tricks and illusions, and for that reason sometimes held suspect among non-mathematicians. |
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Considerations on Galileo's Discourse on Floating Bodies Pannochieschi, Arturo (1612) Pannochieschi, head of the University of Pisa, defended Columbe, widening the debate over floating bodies and exemplifying the Aristotelian physicists’ reaction to Galileo’s use of Archimedean methods. In response, Galileo published a 2d ed. |
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Chronicle of Mathematics Baldi, Bernardino Bernardino Baldi was an Italian mathematician whose work gives insight into the milieu of Galileo. This is one of two autograph manuscripts by Baldi held by the Collections. |
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Discourse on the Comets Galileo , (1619) In this book, Galileo opened a “Controversy over the Comets” by attacking Grassi. Published under the name of his student, Mario Guiducci, it was actually written almost entirely by Galileo himself. |
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Non-European Plants Clusius, Carolus (1605) Charles L’Ecluse, or Clusius, created the Hortus Academicus garden at the University of Leiden where he was a professor. His works reported the latest discoveries in natural history from Alpine regions in Europe and from Spanish territories around the world. |
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Letter to Madame Christina of Lorraine Galileo, (1967) Galileo’s Letter to the Grand Duchess Christina provides a modern example of the book arts. The outer case opens to show a smaller case, the size of a miniature version published a century ago. The 1967 edition fits entirely within the circumference of a nickel. |
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Defense Against the Calumnies and Impostures of Baldessar Capra! Galileo, (1607) Featuring Galileo's Handwriting. Galileo published his second printed book to establish his priority rights and to inform Cosimo de Medici of the legal judgment against Capra. This copy, bound with the Compasso, is inscribed by Galileo to a Florentine physician. |
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Considerations on Tasso Galileo, (1793) Galileo employed his scientific acumen to engage in the literary debates of the day. Here he considered the merits of Tasso and Ariosto, comparing both with Dante. Using his new physics of tensile strength, Galileo refuted Ariosto’s indiscriminate descriptions of giants. |
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The Astronomical Balance Grassi, Oratio (1619) In this book, Grassi responded to the criticism of Guiducci/Galileo. Comets seemed to provide a test of the Copernican and Tychonic systems: if the Earth were moving, then with three comets, one might have hoped to see at least one of them retrograding. |
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Harmonics Ptolemy, Claudius (1682) Ptolemy’s influential music theory was related to his astronomy. Through sight, we apprehend beauty through astronomy. Through hearing, we apprehend beauty through harmony. |
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Euclid's Elements of Geometry, 1589, vol. 1 Clavius, Christoph (1589) Not all versions of Euclid’s Elements were created equal. Clavius prepared this edition for his students at the Rome College (Collegio Romano). If these editions of Euclid were used in different courses, which course would you take? |
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Innovative Sundials Baldi, Bernardino (ca. 1592) This manuscript, a never-published treatise on sundials written in the author’s own hand, was lost in the 18th century and believed destroyed in a shipwreck. Baldi studied with one of Galileo’s teachers, Guidobaldo del Monte. |
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Works in Greek, vol 3 pt. A Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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On the Fabric of the Human Body, 1543 Vesalius, Andreas (1543) Best known work of early modern anatomy: Vesalius was fortunate to team up with Jan Stephan van Calcar, a world class artist. Even the human skeletons reveal an aesthetic appreciation of the human body. |
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Pliny, “Natural History” Pliny the Elder, (1601) Pliny’s Natural History defined the scope and breadth of the field of natural history. Natural history meant the description (or “historia”) of nature, as opposed to explaining its causes (or “natural philosophy”). Pliny died in 79 CE while investigating the eruption of Mt. |
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Response to the Opposition of Lodovico delle Colombe Galileo, (1615) Some of Galileo’s most avid opponents were Aristotelian physicists who, lacking training in mathematics, were unable to refute Galileo’s arguments. |
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On Secret Writing Porta, Giambattista della (1563) Members of the Academy of the Lynx preferred to communicate with each other in code. Della Porta was the most accomplished cryptographer of the Renaissance. This work includes a set of movable cipher disks to code and decode messages. |
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Flowers, or, On the Cultivation of Flower Gardens, 1664 Ferrari, Giovanni Battista (1664) This work, first published in the year of Galileo’s trial (1633), contains the first use of microscopic illustration in a botanical work. Ferrari described many exotic plants, including limes, lemons and pomegranates, and citron, which he prescribed as medicinal plants against scurvy. |
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Various and Ingenious Machines Ramelli, Agostino (1588) The ancient philosopher Hero described mechanics as the science of five simple machines: the lever, pulley, wheel, wedge and screw. These simple machines are combined in the complex inventions of Ramelli. |
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Robert Bellarmine, portrait Robert, Bellarmine Robert Bellarmine was a prominent Jesuit theologian at the time of Galileo. Before several remarkable novas appeared, and 40 years before Galileo’s evidence of sunspots, Bellarmine had already come to believe on the basis of biblical authority that the heavens are not eternal but corruptible. |
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Correspondence Vesalius, Andreas (1546) ABC’s of the life of medical students: The decorative initials used in this edition of Vesalius’ correspondence are identical to 22 different initials originally printed in De fabrica (1543). Such “historiated initials” tell stories. |
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Euclid's Elements of Geometry, 1589, vol. 2 Clavius, Christoph (1589) Not all versions of Euclid’s Elements were created equal. Clavius prepared this edition for his students at the Rome College (Collegio Romano). If these editions of Euclid were used in different courses, which course would you take? |
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Nocturnal Dial replica (2006) Nocturnal dials tell time by the stars. This instrument replicates an original nocturnal dial created by Girolano della Volpaia in Florence in 1569, held in the Museo Galileo in Florence. |
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Works in Greek, vol 3 pt. B Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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On Fortifications Lorini, Buonaiuto (1597) Drawing upon Archimedes, Lorini asserted that all machines of the fortress could be reduced to the balance and thus to the lever. From his home in Padua, Galileo taught a private course on fortifications from about 1592 to 1609. |
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Letters from Galileo to Prince Federigo Cesi Galileo, (1629?) In these letters, Galileo thanked Cesi for his support of the Academy. Galileo quickly became the most illustrious member of the Lynx. Until Cesi’s death in 1630, he provided Galileo and other Lynx members with intellectual, financial and moral support. |
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Phosphorescent Rock, or, On the Light of the Bolognese Stone Liceti, Fortunio (1640) Galileo studied the “Stone of Bologna” or “solar sponge,” produced by alchemists from calcining spar (barium sulfide), which glows in the dark. Galileo inferred from its cool luminescence that light is not the same as heat, but a distinct entity, contra Aristotle. |
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Universal Geography Ptolemy, Claudius (1545) Although best known for his astronomy, Ptolemy (2nd century) brought the same mathematical methods to bear on various topics, including optics, geography, and astrology. This is the first printed edition of his geography, which established mathematical methods in cartography. |
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The Operations of the Geometrical and Military Compass, 1635 Galilei, Galileo (1635) After Capra, the design of Galileo’s compass became widely known. Later editions included illustrations of Galileo’s instrument. |
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Discourse on Two New Sciences, vol. 1 Galileo, (1656) In this masterwork of physics, Galileo studied the two sciences of tensile strength and motion. The science of tensile strength considers how larger objects must bear more and more weight to perform the same action. |
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A Probing of the Astronomical Balance Stelluti, Giovanni Battista (1622) In the Scandaglio, Galileo’s friends tried to refute Grassi’s Astronomical Balance. This obscure and mysterious work appeared under the name of the brother of the better-known Francesco Stelluti, one of the founders of the Academy of the Lynx and friend of Galileo and Prince Cesi. |
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The Assayer, early state Galileo , (1623) The crest of the Barberini family, showing three busy bees, appears at the top of the frontispiece. Galileo’s supporter, Cardinal Maffeo Barberini, had become Pope Urban VIII. The election of Barberini seemed to assure Galileo of support at the highest level in the Church. |
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Discourse on Two New Sciences, vol. 2 Galileo, (1656) In this masterwork of physics, Galileo studied the two sciences of tensile strength and motion. The science of tensile strength considers how larger objects must bear more and more weight to perform the same action. |
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Dissection of the Head of a Shark Steno, Niels (1667) In an appendix to an anatomical work, written for Ferdinand Medici II, Grand Duke of Tuscany, Steno recounted his dissection of the head of a shark that recently had washed ashore. |
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Natural History of Serpents and Dragons Aldrovandi, Ulysses (1640) Aldrovandi’s study of serpents describes those from northern Italy with great accuracy. Yet other serpents were reported in literature and by recent travelers. |
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Essays on Natural Experiences, 1666 Accademia del Cimento, (1666) The Academy of the Lynx (Accademia dei Lincei) dissolved after the death of its founder, Prince Federigo Cesi. In its place, Grand Duke Ferdinand II established the Academy of Experiment in Florence, which carried further the research program of Galileo. |
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Galileo Thermoscope replica, Bizzell Memorial Library Galileo’s thermoscope, ancestor to the thermometer: Galileo pioneered scientific investigations with the thermoscope along with his two Paduan friends, Giovanni Sagredo and Santorio Santorio. |
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On Anatomy Colombo, Matteo Realdo (1559) Between Vesalius and Harvey at Padua: Colombo, a student of Vesalius at Padua, elucidated the pulmonary circulation and described the mitral valve of the heart. William Harvey frequently cited Colombo in his De motu cordis, (On the Circulation of the Blood, 1628). |
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New Theater of Machines Zonca, Vittorio (1621) This “theater of machines” parades 40 different machines for any kind of purpose, whether a lock on a river, a book press or engraving press, or a device to prevent smoke from filling a room.Unlike the writings of Lorini and Galileo, which included theoretical investigations on the principles of... |
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Human Anatomy Porta, Giambattista della (1637) Della Porta applied the “doctrine of signatures” to humans and animals, exploring how the shape of someone’s head, ears, nose or some other external feature might reveal that person’s true, inner nature by how closely it resembles a particular animal. |
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Works in Greek, vol. 4 Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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Letter on the Pythagorean and Copernican Opinion on the Motion of the Earth and Stability of the Sun Foscarini, Paolo (1635) The Carmelite theologian Foscarini defended Copernicanism as compatible with Scripture in this open letter, originally printed in Naples in 1615. Foscarini employed arguments similar to Galileo’s own Letter to the Grand Duchess Christina, penned in the same year. |
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Problems and Exercises in Aristotle’s Mechanics Baldi, Bernardino (1621) Aristotle’s Mechanics contained an analysis of the principles of motion and simple machines. While no longer accepted as an authentic work by Aristotle, its influence among Renaissance scientist-engineers was profound, as illustrated in this commentary by Baldi. |
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Treatise on Fossil Mineral Wood Stelluti, Francesco (1637) The Academy of the Lynx emblem appears prominently on this title page. Although Stelluti once believed that fossils resembling wood originated from buried tree trunks, Cesi persuaded him otherwise. |
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Works, Archimedes Archimedes, (1543) Archimedes (d. 212 B.C.) developed the law of the lever with his Treatise on the Balance. He contributed to arithmetic by devising methods for expressing extremely large numbers. He deduced many new geometrical theorems on spheres, cylinders, circles and spirals. |
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Anatomical Illustrations Eustachi, Bartolomeo (1716) Lost plates for treatises on teeth, hearing and the kidneys, rediscovered: In the 1560’s, Eustachi, a professor of medicine in the Collegia della Sapienza in Rome, wrote several treatises devoted to particular organs of the body, including a pioneering work on the teeth. |
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The Assayer, later state Galileo , (1623) Although Galileo eloquently championed mathematical methods in science, the main target of his wit and sarcasm in The Assayer was Grassi, a fellow astronomer, whose mathematical methods proved that comets move above the Moon. |
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Astrolabe replica (2015) The astrolabe, one of the fundamental instruments for observational astronomy, consists of three major parts: the mater, the underlying disk; the climate, a removable disk adjusted for latitude; and the rete, a ring marked with star positions. |
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Essays on Natural Experiences, 1667 Accademia del Cimento, (1667) The Academy transformed the thermoscope into the thermometer by adding a graduated scale (which had been done by Galileo and his friends) and by sealing the tube to make it independent of air pressure. |
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The Reformed Heaven Bruno, Giordano (1750) This work contains a survey of the constellations and a cosmological dialogue, Lo Spaccio de la Bestia Trionfante (The Expulsion of the Triumphant Beast, 1584). Bruno, a Dominican astrologer and philosopher, affirmed that the universe is infinite, having no center. |
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On the Sizes and Distances of the Sun and Moon Samos, Aristarchus of (1572) Aristarchus, the Copernicus of antiquity, proposed in the 3rd century B.C.E. that the Sun lies at the center of the universe and that the Earth and other planets revolve around the Sun. |
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New Science Tartaglia, Niccolo (1558) Tartaglia’s compass (also known as a “sector”) incorporated the functions of a quadrant and a caliper measuring device. His “new science” investigated the ballistics of cannonballs, laying a foundation for Galileo’s studies of projectile motion and free fall. |
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Works in Greek, vol. 5 Aristotle, (1495-1498) In a work entitled “On the Universe,” Aristotle argued that a 5th element, called ether or the quintessence, composes the celestial spheres that naturally rotate in place above the region where the four lower elements mix together beneath the Moon. |
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Dialogue on the Two Chief Systems of the World Galileo, (1632) Featuring Galileo's Handwriting. This is Galileo’s witty and entertaining dialogue in defense of Copernicus. In the frontispiece, Aristotle and Ptolemy hold an Earth-centered armillary sphere (left). Copernicus holds a Sun-centered model of the universe (right). |
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The Courtier Castiglione, Baldassarre (1724) To move up in the world, Galileo and other members of his generation sought positions at court. To help them know what to expect, Castiglione wrote the standard manual for court etiquette, how to please your supervisor. Coach Galileo would say, pay attention to Castiglione. |
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100 Tales Boccaccio, Giovanni (1925) Eyewitness to Black Plague: In the opening section, the Florentine writer Boccaccio (1313-1375) recounted his observations of the plague. According to Boccaccio, most people died within about three days of the appearance of tumors. |
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Treatise on the Sphere Grassi, Oratio (1623) In the same year that Galileo published The Assayer, Grassi delivered these lectures to Jesuit students in the Rome College (Collegio Romano). |
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Progress and the Hunter’s Lamp of Logical Methods Bruno, Giordano (1587) In this work, Bruno advocated a technique for discovery through pure thought, influenced by the methodology of Raymond Lull. This volume also contains the first printing of Bruno’s Examination of Forms (1588). |
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Essays on Natural Experiences, 1701 Accademia del Cimento, (1701) The Academy crafted a hygrometer to measure humidity in the air. They improved the barometer, and conducted many experiments with air pressure. The Academy also experimented with light and phosphorescence, radiant heat, the velocity of sound and many other topics. |
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Commentary on the Canon of Ibn Sina (Avicenna) Santorio, Santorio (1646) Galileo’s physics, applied to medicine: Santorio Santorio (also known as Sanctorio or Sanctorius) practiced medicine in Padua, in the Venetian Republic. |
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A Geometrical Reconstruction of On Conic Sections by Aristaeus Viviani, Vincenzo (1701) In this work, Viviani reconstructed an ancient study of conic sections by Aristaeus the Elder (4th century B.C.E.). Viviani became Galileo’s student and assistant in 1639. |
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Treatise on the Measuring Stick Orsini, Latino (1583) This book is Orsini’s manual for using a measuring stick instrument which he designed and called a “radio latino.” With its changing angles, multiple sight lines, and various scales, it was useful for making astronomical measurements, surveying uneven topography, measuring a cannon’s bore or... |
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On the Transformations of the Atmosphere Porta, Giambattista della (1610) Della Porta dedicated several books to Cesi. Cesi underwrote publication of this book on meteorology, which includes wide-ranging discussions of water, earthquakes and meteorites. The title page displays Cesi’s coat of arms. |
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Treatise on Painting da Vinci, Leonardo (1716) Despite a lack of publications, Leonardo’s fame grew as word of his notebooks spread. The first work by Leonardo to be printed was his Treatise on Painting, published a century after his death. That 1651 Italian edition is on display at the Fred Jones Jr. Museum of Art in Spring 2016. |
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The Burning Mirror Cavalieri, Bonaventura (1632) Archimedes died defending the ancient city of Syracuse, on the island of Sicily, from the Carthaginian navy. Reports attributed the defense of the city to his ingenuity, including giant mirrors capable of setting attacking ships in the harbor on fire. |
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Commentary on the Book of Job Zuniga, Diego de (1591) Scientific results were often reported in theological works, as in this first defense of Copernicanism in Spain. In his commentary on Job 9:6 (misnumbered 9:5), Zuniga summarized evidence for Copernicanism from the precession of the equinoxes. |
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Commentary on Al-Qabisi Al-Qabisi, (1512) This medieval introduction to astrology was frequently translated from Arabic into Latin. Al-Qabisi lived in the 10th century in Syria. |
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Galileo Thermoscope replica, Bird Health Sciences Library Galileo’s thermoscope, developed in the context of pneumatic engineering, was an ancestor to the thermometer. Galileo pioneered scientific investigations with the thermoscope along with his two Paduan friends, Giovanni Sagredo and Santorio Santorio. |
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The Spectacle according to the Eye: Practical Optics Manzini, Carlo Antonio (1660) Galileo designed this lens grinding machine in 1639, when he was 75 years old. Galileo began grinding his own lenses as early as 1609. |
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The Kingdom of China, before now called Cathay and Mangin Cantelli, Giacomo (1682) This map, based on Cantelli’s own reports as well as the surveys of Martini, influenced the larger Coronelli map also on display. Cantelli depicts relief and features like the Great Wall pictorially. Peking is clearly indicated. Korea is a peninsula, per Martini. |
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Commentary on Aristotle’s Posterior Analytics Philoponus, (1504) In the 6th century, the Greek physicist and theologian Philoponus constructed an anti-Aristotelian theory of motion. For Philoponus, an “impressed incorporeal motive force” explains the motion of a top, a projectile, and falling bodies. |
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Sphere of the Universe Biancani, Giuseppe (1620) After Clavius, Jesuits tended to adopt Tycho’s system. Biancani’s Sphaera replaced Clavius as the standard introduction to astronomy in many Jesuit colleges. Biancani favored Tycho’s system, which preserved the mathematical elegance of Copernicus and accommodated the absence of stellar parallax... |
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On the Motion of Animals, 1680 - 81 Borelli, Giovanni (1680-81) The physics of bones and muscles: Borelli, a practicing mathematician and engineer as well as a physician, analyzed the musculoskeletal system in terms of the mechanics of the lever and other simple machines. Borelli studied under Galileo’s student Castelli, along with Torricelli. |
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A Comparison of the Weights for The Astronomical Balance and the Small Scale Grassi, Oratio (1627) The Jesuit astronomers who had celebrated Galileo’s telescopic discoveries during his visit to Rome in 1611 now felt estranged by the biting satire of the The Assayer. The controversy concluded with this final reply. Both comets and cosmic systems remained enigmas. |
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The Western and Eastern Parts of China divided into their Provinces Coronelli, Vincenzo (1696) European techniques of map-making, coupled with Chinese skill and knowledge, led to this two-sheet map by Coronelli. It clearly indicates the Great Wall, Beijing (Xuntien), Korea, and Taiwan. The westernmost part of Japan is also visible. |
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On the Sphere Sacro Bosco, Joannes de (1490) In University study from the 13th through 16th centuries, the most common introduction to the geocentric cosmos was the medieval work, On the Sphere, by Sacrobosco. |
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Anatomical Observations Steno, Nicolaus (1662) Stensen’s duct, by a founder of geology: Steno, a physician who worked for Ferdinand II de Medici in Florence, is known to generations of geologists as the founder of stratigraphy and an early advocate of the organic origin of fossils. |
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Cosmography, 1585 Barozzi, Francesco (1585) The illustrations in this cosmography show its indebtedness to the Sacrobosco tradition. Barozzi, a humanist scholar who lectured at the University of Padua, provided an updated introduction to observational astronomy, intended as a replacement for Sacrobosco and Peurbach. |
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On the Tornado Boscovich, Ruder (1749) Boscovic, a Jesuit mathematical physicist from the region of modern-day Croatia, published this account of a tornado that passed through Rome in June of 1749. Benjamin Franklin’s reading of this book prompted his own tornado investigations, including storm chasing. |
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The New Almagest, part 1 Riccioli, Giambattista (1651) The frontispiece of Riccioli’s treatise depicts not two, but three major systems of the world. The Ptolemaic system rests discarded (lower right corner) because of the phases of Venus and Mercury (upper left corner). All-seeing Argus looks on, holding a telescope. |
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On the Center of Gravity of Solids, 1661 Valerio, Luca (1661) Analyzing the center of gravity of an object was a traditional problem addressed using the methods of Archimedes. Galileo referred to Valerio as “the Archimedes of our age” and recommended him for membership in the Academy of the Lynx. |
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The New Almagest, part 2 Riccioli, Giambattista (1651) The frontispiece of Riccioli’s treatise depicts not two, but three major systems of the world. The Ptolemaic system rests discarded (lower right corner) because of the phases of Venus and Mercury (upper left corner). All-seeing Argus looks on, holding a telescope. |
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On Perspective Monte, Guidobaldo del (1600) Kepler, Galileo and Guidobaldo were the leading optical theorists of their generation. Galileo studied with Guidobaldo while he was composing this treatise. |
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The Three Spheres Beati, Gabriele (1662) Which of Kircher’s six world systems are compatible with Beati’s cosmic section? Despite Galileo’s rhetorical attempt to cast cosmological debate as a choice between two chief world systems, Beati’s cosmic section is neither Ptolemaic nor Copernican. |
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On Mechanics Monte, Guidobaldo del (1577) Hero described five simple machines: the lever, pulley, wheel, wedge and screw. In this theoretical investigation of the foundations of mechanics, Guidobaldo demonstrated that all five machines could be deduced from the principle of the lever. |
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Galileo, Mechanics Marsenne, Marin (1634) As a young scientist-engineer, Galileo wrote two manuscripts on motion. The first, Delle macchine, written ca. 1592; reflected the tradition of Aristotle’s Mechanics. It was never printed. The second, revised study, Le mechaniche, written ca. |
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Mathematical Discourses Galileo , (1730) This is the first separate English edition of Galileo’s Discourse on Two New Sciences, his masterwork in mathematical physics. The “two new sciences” are tensile strength and motion. |
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Newtonianism for Women Algarotti, Francesco (1737) Algarotti’s popular introduction to Newtonian science went through many editions and aided in the dissemination of Newtonian ideas on the European continent. It was dedicated to Fontenelle. Like Fontenelle’s Plurality of Worlds, it was written as an entertaining dialogue. |