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Magic lantern

February 15, 2024

This article is about the early type of image projector. For other uses, see Magic lantern (disambiguation).

The magic lantern, also known by its Latin name lanterna magica, was an early type of image projector that used pictures—paintings, prints, or photographs—on transparent plates (usually made of glass), one or more lenses, and a light source. Because a single lens inverts an image projected through it (as in the phenomenon which inverts the image of a camera obscura), slides were inserted upside down in the magic lantern, rendering the projected image correctly oriented.[1]

19th century magic lantern with printed slide incorrectly inserted (upright, which would be projected by the lantern as an inverted picture[1])
Magic lantern slide by Carpenter and Westley

It was mostly developed in the 17th century and commonly used for entertainment purposes. It was increasingly used for education during the 19th century. Since the late 19th century, smaller versions were also mass-produced as toys. The magic lantern was in wide use from the 18th century until the mid-20th century when it was superseded by a compact version that could hold many 35 mm photographic slides: the slide projector.

Christiaan Huygens is credited as the inventor of the magic lantern, described in correspondence of 1659.[2] There are others to whom such a lantern device has been attributed, such as Giambattista della Porta and Cornelis Drebbel, though Huygens's design used lens for better projection (Athanasius Kircher has also been credited for that).[3]

Technology edit

Apparatus edit

 
A page of Willem 's Gravesande's 1720 book Physices Elementa Mathematica with Jan van Musschenbroek's magic lantern projecting a monster. The depicted lantern is one of the oldest known preserved examples, and is in the collection of Museum Boerhaave, Leiden

The magic lantern used a concave mirror behind a light source to direct the light through a small rectangular sheet of glass—a "lantern slide" that bore the image—and onward into a lens at the front of the apparatus. The lens adjusted to focus the plane of the slide at the distance of the projection screen, which could be simply a white wall, and it therefore formed an enlarged image of the slide on the screen.[4] Some lanterns, including those of Christiaan Huygens and Jan van Musschenbroek, used three lenses for the objective.[5][6]

Biunial lanterns, with two objectives, became common during the 19th century and enabled a smooth and easy change of pictures. Stereopticons added more powerful light sources to optimize the projection of photographic slides.[7]

Slides edit

Originally the pictures were hand painted on glass slides. Initially, figures were rendered with black paint but soon transparent colors were also used. Sometimes the painting was done on oiled paper. Usually black paint was used as a background to block superfluous light, so the figures could be projected without distracting borders or frames. Many slides were finished with a layer of transparent lacquer, but in a later period cover glasses were also used to protect the painted layer.[8] Most handmade slides were mounted in wood frames with a round or square opening for the picture.[9]

 
A paper rimmed mass-produced slide

After 1820 the manufacturing of hand colored printed slides started, often making use of decalcomania transfers.[10] Many manufactured slides were produced on strips of glass with several pictures on them and rimmed with a strip of glued paper.[11]

The first photographic lantern slides, called hyalotypes, were invented by the German-born brothers Ernst Wilhelm (William) and Friedrich (Frederick) Langenheim in 1848 in Philadelphia and patented in 1850.[11][12][13]

Light sources edit

Apart from sunlight, the only light sources available at the time of invention in the 17th century were candles and oil lamps, which were very inefficient and produced very dim projected images. The invention of the Argand lamp in the 1790s helped to make the images brighter. The invention of limelight in the 1820s made them even brighter, emitting about 6000-8000 lumens.[14] The invention of the intensely bright electric arc lamp in the 1860s eliminated the need for combustible gases or hazardous chemicals, and eventually the incandescent electric lamp further improved safety and convenience, although not brightness.[15]

Precursors edit

Further information: projector

Several types of projection systems existed before the invention of the magic lantern. Giovanni Fontana, Leonardo da Vinci and Cornelis Drebbel described or drew image projectors that had similarities to the magic lantern.[16] In the 17th century, there was an immense interest in optics. The telescope and microscope were invented (in 1608 and the 1620s respectively) and apart from being useful to some scientists, such instruments were especially popular as entertaining curiosities to people who could afford them.[17] The magic lantern would prove a natural successor.

Camera obscura edit

The magic lantern can be seen as a further development of camera obscura. This is a natural phenomenon that occurs when an image of a scene at the other side of a screen (for instance a wall) is projected through a small hole in that screen as an inverted image (left to right and upside down) on a surface opposite to the opening. It was known at least since the 5th century BC and experimented with in darkened rooms at least since c. 1000 AD. The use of a lens in the hole has been traced back to c. 1550. The portable camera obscura box with a lens was developed in the 17th century. Dutch inventor Cornelis Drebbel is thought to have sold one to Dutch poet, composer and diplomat Constantijn Huygens in 1622,[18] while the oldest known clear description of a box-type camera is in German Jesuit scientist Gaspar Schott's 1657 book Magia universalis naturæ et artis.[19]

Steganographic mirror edit

 
Illustration of Kircher's Steganographic mirror in his 1645 book Ars Magna Lucis et Umbrae

The 1645 first edition of German Jesuit scholar Athanasius Kircher's book Ars Magna Lucis et Umbrae included a description of his invention, the "Steganographic Mirror": a primitive projection system with a focusing lens and text or pictures painted on a concave mirror reflecting sunlight, mostly intended for long-distance communication. He saw limitations in the increase of size and diminished clarity over a long distance and expressed his hope that someone would find a method to improve on this.[20]

In 1654, Belgian Jesuit mathematician André Tacquet used Kircher's technique to show the journey from China to Belgium of Italian Jesuit missionary Martino Martini.[21] Some reports say that Martini lectured throughout Europe with a magic lantern, which he might have imported from China, but there's no evidence that it used anything other than Kircher's technique. However, Tacquet was a correspondent and friend of Christiaan Huygens and may thus have been a very early adapter of the magic lantern technique that Huygens developed around this period.[22][23]

Invention edit

Christiaan Huygens edit

 
A sketch of the lantern configuration (without a slide) from Huygens' letter to Pierre Petit (11 December 1664)
 
Huygens' 1659 sketches for a projection of Death taking off his head

Dutch scientist Christiaan Huygens is considered as one of the possible inventors of the magic lantern. He knew Athanasius Kircher's 1645 edition of Ars Magna Lucis et Umbrae[24] which described a primitive projection system with a focusing lens and text or pictures painted on a concave mirror reflecting sunlight. Christiaan's father Constantijn had been acquainted with Cornelis Drebbel who used some unidentified optical techniques to transform himself and to summon appearances in magical performances. Constantijn Huygens wrote about a camera obscura device that he got from Drebbel in 1622.[18]

The oldest known document concerning the magic lantern is a page on which Christiaan Huygens made ten small sketches of a skeleton taking off its skull, above which he wrote "for representations by means of convex glasses with the lamp" (translated from French). As this page was found between documents dated in 1659, it is believed to have been made in the same year.[25] Huygens soon seemed to regret this invention, as he thought it was too frivolous. In a 1662 letter to his brother Lodewijk he claimed he thought of it as some old "bagatelle" and seemed convinced that it would harm the family's reputation if people found out the lantern came from him. Christiaan had reluctantly sent a lantern to their father, but when he realized that Constantijn intended to show the lantern to the court of King Louis XIV of France at the Louvre, Christiaan asked Lodewijk to sabotage the lantern.[26]

 
Huygens' 1694 laterna magica sketch, showing: "speculum cavum (hollow mirror). lucerna (lamp). lens vitrea (glass lens). pictura pellucida (transparent picture). lens altera (other lens). paries (wall)."

Christiaan initially referred to the magic lantern as "la lampe" and "la lanterne", but in the last years of his life he used the then common term "laterna magica" in some notes. In 1694, he drew the principle of a "laterna magica" with two lenses.[27]

Walgensten, the Dane edit

 
Walgensten's magic lantern as illustrated in Claude Dechales Cursus seu Mundus Mathematicus — Tomus secundus (1674)

Thomas Rasmussen Walgensten [da] (c. 1627–1681), a mathematician from Gotland, studied at the university of Leiden in 1657–58. He possibly met Christiaan Huygens during this time (and/or on several other occasions) and may have learned about the magic lantern from him. Correspondence between them is known from 1667. At least from 1664 until 1670, Walgensten demonstrated the magic lantern in Paris (1664), Lyon (1665), Rome (1665–1666), and Copenhagen (1670).[17] He "sold such lanterns to different Italian princes in such an amount that they now are almost everyday items in Rome", according to Athanasius Kircher in 1671.[28] In 1670, Walgensten projected an image of Death at the court of King Frederick III of Denmark. This scared some courtiers, but the king dismissed their cowardice and requested to repeat the figure three times. The king died a few days later. After Walgensten died, his widow sold his lanterns to the Royal Danish Collection [da], but they have not been preserved.[17] Walgensten is credited with coining the term Laterna Magica,[29] assuming he communicated this name to Claude Dechales who, in 1674, published about seeing the machine of the "erudite Dane" in 1665 in Lyon.[30]

Possible German origins: Wiesel and Griendel edit

 
Illustration of an early southern German lantern from Johann Sturm, Collegium Experimentale (1677)

There are many gaps and uncertainties in the magic lantern's recorded history. A separate early magic lantern tradition seems to have been developed in southern Germany and includes lanterns with horizontal cylindrical bodies, while Walgensten's lantern and probably Huygens' both had vertical bodies. This tradition dates at least to 1671, with the arrival of instrument maker Johann Franz Griendel in the city of Nürnberg, which Johann Zahn identified as one of the centers of magic lantern production in 1686. Griendel was indicated as the inventor of the magic lantern by Johann Christoph Kohlhans in a 1677 publication.[31] It has been suggested that this tradition is older and that instrument maker Johann Wiesel (1583–1662) from Augsburg may have been making magic lanterns earlier on and possibly inspired Griendel and even Huygens. Huygens is known to have studied samples of Wiesel's lens-making and instruments since 1653. Wiesel did make a ship's lantern around 1640 that has much in common with the magic lantern design that Griendel would later apply: a horizontal cylindrical body with a rosette chimney on top, a concave mirror behind a fixture for a candle or lamp inside and a biconvex lens at the front. There is no evidence that Wiesel actually ever made a magic lantern, but in 1674, his successor offered a variety of magic lanterns from the same workshop. This successor is thought to have only continued producing Wiesel's designs after his death in 1662, without adding anything new.[32]

Further history edit

Early adopters edit

Before 1671, only a small circle of people seemed to have knowledge of the magic lantern, and almost every known report of the device from this period had to do with people that were more or less directly connected to Christiaan Huygens. Despite the rejection expressed in his letters to his brother, Huygens must have familiarized several people with the lantern.[33]

In 1664 Parisian engineer Pierre Petit wrote to Huygens to ask for some specifications of the lantern, because he was trying to construct one after seeing the lantern of "the dane" (probably Walgensten). The lantern that Petit was constructing had a concave mirror behind the lamp.[34] This directed more light through the lens, resulting in a brighter projection, and it would become a standard part of most of the lanterns that were made later. Petit may have copied it from Walgensten, but he expressed that he made a lamp stronger than any he had ever seen.[17]

Starting in 1661, Huygens corresponded with London optical instrument-maker Richard Reeve.[17] Reeve was soon selling magic lanterns, demonstrated one in his shop on 17 May 1663 to Balthasar de Monconys,[35] and sold one to Samuel Pepys in August 1666.[36][37]

 
Illustration from Kircher's 1671 Ars Magna Lucis et Umbrae - projection of hellfire or purgatory
 
Illustration from Kircher's 1671 Ars Magna Lucis et Umbrae - projection of Death

One of Christiaan Huygens' contacts imagined how Athanasius Kircher would use the magic lantern: "If he would know about the invention of the Lantern he would surely frighten the cardinals with specters."[38] Kircher would eventually learn about the existence of the magic lantern via Thomas Walgensten and introduced it as "Lucerna Magica" in the widespread 1671 second edition of his book Ars Magna Lucis et Umbrae.[39] Kircher claimed that Thomas Walgensten reworked his ideas from the previous edition of this book into a better lantern. Kircher described this improved lantern, but it was illustrated in a confusing manner:[40] the pictures seem technically incorrect—with both the projected image and the transparencies (H) shown upright (while the text states that they should be inverted), the hollow mirror is too high in one picture and absent in the other, and the lens (I) is at the wrong side of the slide. However, experiments with a construction as illustrated in Kircher's book proved that it could work as a point light-source projection system.[41] The projected image in one of the illustrations shows a person in purgatory or hellfire and the other depicts Death with a scythe and an hourglass. According to legend Kircher secretly used the lantern at night to project the image of Death on windows of apostates to scare them back into church.[42] Kircher did suggest in his book that an audience would be more astonished by the sudden appearance of images if the lantern would be hidden in a separate room, so the audience would be ignorant of the cause of their appearance.[40]

Educational use and other subjects edit

 
Illustration of a lantern slide depicting Bacchus in Sturm's Collegium experimentale sive curiosum (1677)

The earliest reports and illustrations of lantern projections suggest that they were all intended to scare the audience. Pierre Petit called the apparatus "lanterne de peur" (lantern of fear) in his 1664 letter to Huygens.[34] Surviving lantern plates and descriptions from the next decades prove that the new medium was not just used for horror shows, but that many kinds of subjects were projected. Griendel didn't mention scary pictures when he described the magic lantern to Gottfried Wilhelm Leibniz in December 1671: "An optical lantern which presents everything that one desires, figures, paintings, portraits, faces, hunts, even an entire comedy with all its lively colours."[43] In 1675, Leibniz saw an important role for the magic lantern in his plan for a kind of world exhibition with projections of "attempts at flight, artistic meteors, optical effects, representations of the sky with the star and comets, and a model of the earth (...), fireworks, water fountains, and ships in rare forms; then mandrakes and other rare plants and exotic animals." In 1685–1686, Johannes Zahn was an early advocate for use of the device for educational purposes: detailed anatomical illustrations were difficult to draw on a chalkboard, but could easily be copied onto glass or mica.[17]

 
1737 etching/engraving of an organ grinder with a magic lantern on her back by Anne Claude de Caylus (after Edme Bouchardon)

By the 1730s the use of magic lanterns started to become more widespread when travelling showmen, conjurers and storytellers added them to their repertoire. The travelling lanternists were often called Savoyards (they supposedly came from the Savoy region in France) and became a common sight in many European cities.[17]

In France in the 1770s François Dominique Séraphin used magic lanterns to perform his "Ombres Chinoises" (Chinese shadows), a form of shadow play.[44]

Magic lanterns had also become a staple of science lecturing and museum events since Scottish lecturer Henry Moyes's tour of America in 1785–86, when he recommended that all college laboratories procure one. French writer and educator Stéphanie Félicité, comtesse de Genlis popularized the use of magic lanterns as an educational tool in the late 1700s when using projected images of plants to teach botany. Her educational methods were published in America in English translation during the early 1820s.[45] A type of lantern was constructed by Moses Holden between 1814 and 1815 for illustrating his astronomical lectures.[46]

Mass slide production edit

In 1821, Philip Carpenter's London company, which became Carpenter and Westley after his death, started manufacturing a sturdy but lightweight and transportable "Phantasmagoria lantern" with an Argand style lamp. It produced high quality projections and was suitable for classrooms. Carpenter also developed a "secret" copper plate printing/burning process to mass-produce glass lantern slides with printed outlines, which were then easily and quickly hand painted ready for sale.[47] These "copper-plate sliders" contained three or four very detailed 4" circular images mounted in thin hardwood frames. The first known set The Elements of Zoology became available in 1823, with over 200 images in 56 frames of zoological figures, classified according to the system of the Swedish scientist Carl Linnaeus. The same year many other slides appeared in the company's catalogue: "The Kings and Queens of England" (9 sliders taken from David Hume's History of England), "Astronomical Diagrams and Constellations" (9 sliders taken from Friedrich Wilhelm Herschel's textbooks), "Views and Buildings", Ancient and Modern Costume (62 sliders from various sources).[48] Fifteen sliders of the category "Humorous" provided some entertainment, but the focus on education was obvious and very successful.[49]

Through the mid-19th century, the market for magic lanterns was concentrated in Europe with production focused primarily on Italy, France, and England. In 1848, a New York optician began advertising imported slides and locally produced magic lanterns. By 1860, however, mass production began to make magic lanterns more widely available and affordable, with much of the production in the latter half of the 19th century concentrated in Germany.[50] These smaller lanterns had smaller glass sliders, which instead of wooden frames usually had colorful strips of paper glued around their edges with the images printed directly on the glass.[51]

Waning popularity edit

The popularity of magic lanterns waned after the introduction of movies in the 1890s, but they remained a common medium until slide projectors became widespread during the 1950s.[52]

Moving images edit

 
Mice jump into the mouth of a sleeping bearded man on a popular mechanical slide from circa 1870.

The magic lantern was not only a direct ancestor of the motion picture projector as a means for visual storytelling, but it could itself be used to project moving images. Some suggestion of movement could be achieved by alternating between pictures of different phases of a motion, but most magic lantern "animations" used two glass slides projected together — one with the stationary part of the picture and the other with the part that could be set in motion by hand or by a simple mechanism.[53]: 689–699 

Motion in animated slides was mostly limited to either two phases of a movement or transformation, or a more gradual singular movement (e.g., a train passing through a landscape). These limitations made subjects with repetitive movements popular, like the sails on a windmill turning around or children on a seesaw. Movements could be repeated over and over and could be performed at different speeds. A common technique that is comparable to the effect of a panning camera makes use of a long slide that is simply pulled slowly through the lantern and usually shows a landscape, sometimes with several phases of a story within the continuous backdrop.[53]: 689–699 [54]: 7 

Movement of projected images was also possible by moving the magic lantern itself. This became a staple technique in phantasmagoria shows in the late 18th century, often with the lantern sliding on rails or riding on small wheels and hidden from the view of the audience behind the projection screen.[53]: 691 

History edit

In 1645, Kircher had already suggested projecting live insects and shadow puppets from the surface of the mirror in his Steganographic system to perform dramatic scenes.[55]

Christiaan Huygens' 1659 sketches (see above) suggest he intended to animate the skeleton to have it take off its head and place it back on its neck. This can be seen as an indication that the very first magic lantern demonstrations may already have included projections of simple animations.[53]: 687 

In 1668, Robert Hooke wrote about the effects of a type of magic lantern installation: "Spectators not well versed in optics, that should see the various apparitions and disappearances, the motions, changes and actions that may this way be represented, would readily believe them to be supernatural and miraculous."[56]

In 1675, German polymath and philosopher Gottfried Wilhelm Leibniz proposed a kind of world exhibition that would show all types of new inventions and spectacles. In a handwritten document he supposed it should open and close with magic lantern shows, including subjects "which can be dismembered, to represent quite extraordinary and grotesque movements, which men would not be capable of making" (translated from French).[57][58]

Several reports of early magic lantern screenings possibly described moving pictures, but are not clear enough to conclude whether the viewers saw animated slides or motion depicted in still images.[53]

In 1698, German engraver and publisher Johann Christoph Weigel described several lantern slides with mechanisms that made glass parts move over one fixed glass slide, for instance by the means of a silk thread, or grooves in which the mobile part slides.[59]

By 1709 a German optician and glass grinder named Themme (or Temme) made moving lantern slides, including a carriage with rotating wheels, a cupid with a spinning wheel, a shooting gun, and falling bombs. Wheels were cut from the glass plate with a diamond and rotated by a thread that was spun around small brass wheels attached to the glass wheels. A paper slip mask would be quickly pulled away to reveal the red fiery discharge and the bullet from a shooting gun. Zacharias Conrad von Uffenbach visited Themme's shop and liked the effects, but was disappointed about the very simple mechanisms. Nonetheless, he bought seven moving slides, as well as twelve slides with four pictures each, which he thought were delicately painted.[60]

Several types of mechanical slides were described and illustrated in Dutch professor of mathematics, physics, philosophy, medicine, and astronomy Pieter van Musschenbroek's second edition (1739) of Beginsels Der Natuurkunde (see illustration below).[61] Pieter was the brother of Jan van Musschenbroek, the maker of an outstanding magic lantern with excellent lenses and a diaphragm (see illustration above).[53]: 688 

In 1770, Edmé-Gilles Guyot described a method of using two slides for the depiction of a storm at sea, with waves on one slide and ships and a few clouds on another. Lanternists could project the illusion of mild waves turning into a wild sea tossing the ships around by increasing the movement of the separate slides. Guyot also detailed how projection on smoke could be used to create the illusion of ghosts hovering in the air, which would become a technique commonly used in phantasmagoria.[53]: 691 

An especially intricate multiple rackwork mechanism was developed to show the movements of the planets (sometimes accompanied by revolving satellites) revolving around the Sun. In 1795, one M. Dicas offered an early magic lantern system, the Lucernal or Portable Eidouranian, that showed the orbiting planets. From around the 1820s mechanical astronomical slides became quite common.[62]

Various types of mechanical slides edit

 
Mechanical slides for a magic lantern as illustrated in Petrus van Musschenbroek's Beginsels Der Natuurkunde (second edition 1739)
 
A stereopticon magic lantern

Various types of mechanisms were commonly used to add movement to the projected image:

  • slipping slides: a movable glass plate with one or more figures (or any part of a picture for which movement was desired) was slipped over a stationary one, directly by hand or with a small drawbar (see: Fig. 7 on the illustration by Petrus van Musschenbroek: a tightrope walker sliding across the rope). A common example showed a creature that could move the pupils in its eyes, as if looking in all directions. A long piece of glass could show a procession of figures, or a train with several wagons. Quite convincing illusions of moving waves on a sea or lake have also been achieved with this method.[63]
  • slipping slides with masking: black paint on portions of the moving plate would mask parts of the underlying image — with a black background — on the stationary glass. This made it possible to hide and then reveal the previous position of a part, for instance a limb, to suggest repetitious movement. The suggested movement would be rather jerky and usually operated quickly. Masking in slides was also often used to create change rather than movement (see: Fig. 6 on the illustration by Petrus van Musschenbroek: a man, his wig and his hat): for instance a person's head could be replaced with that of an animal. More gradual and natural movement was also possible; for instance to make a nose grow very long by slowly moving a masking glass.[64]
  • lever slides: the moving part was operated by a lever. These could show a more natural movement than slipping slides and were mostly used for repetitive movements, for instance a woodcutter raising and lowering his axe, or a girl on a swing.[63] (see: Fig. 5 on the illustration by Petrus van Musschenbroek: a drinking man raising and lowering his glass + Fig. 8: a lady curtsying)
  • pulley slides: a pulley rotates the moving part and could for instance be used to turn the sails on a windmill[65] (see: fig. 4 on illustration by Van Musschenbroek)
  • rack and pinion slides: turning the handle of a rackwork would rotate or lift the moving part and could for instance be used to turn the sails on a windmill or for having a hot air balloon take off and descend. A more complex astronomical rackwork slide showed the planets and their satellites orbiting around the sun.[63]
  • fantoccini slides: jointed figures set in motion by levers, thin rods, or cams and worm wheels. A popular version had a somersaulting monkey with arms attached to mechanism that made it tumble with dangling feet. Named after the Italian word for animated puppets, like marionettes or jumping jacks. Two different British patents for slides with moving jointed figures were granted in 1891.[66]
  • a snow effect slide can add snow to another slide (preferably of a winter scene) by moving a flexible loop of material pierced with tiny holes in front of one of the lenses of a double or triple lantern.[67]

Mechanical slides with abstract special effects include:

 
Slide with a fantoccini trapeze artist and a chromatrope border design (c. 1880)
  • the Chromatrope: a slide that produces dazzling colorful geometrical patterns by rotating two painted glass discs in opposite directions, originally with a double pulley mechanism but later usually with a rackwork mechanism.[63][68] It was possibly invented around 1844 by English glass painter and showman Henry Langdon Childe[69][70] and soon added as a novelty to the program of the Royal Polytechnic Institution.[71][72]
  • the Astrometeoroscope or Astrometroscope: a large slide that projected a lacework of dots forming constantly changing geometrical line patterns, compared with stars and meteors. It was invented in or before 1858 by the Hungarian engineer S. Pilcher and used a very ingenious mechanism with two metal plates obliquely crossed with slits that moved to and fro in contrary directions. Except for when the only known example was used in a performance, it was kept locked away at the Polytechnic so no one could discover the secret technique. When the Polytechnic auctioned the device, Picher eventually paid an extravagant price for his own invention to keep its workings secret.[73][74]
  • the Eidotrope: counter-rotating discs of perforated metal or card (or wire gauze or lace), producing swirling Moiré patterns of bright white dots. It was invented by English scientist Charles Wheatstone in 1866.[75][76]
  • the Kaleidotrope: a slide with a single perforated metal or cardboard disc suspended on a spiral spring. The holes can be tinted with colored pieces of gelatin. When struck the disc's vibration and rotation sends the colored dots of light swirling around in all sorts of shapes and patterns. The device was demonstrated at the Royal Polytechnic Institution around 1870 and dubbed "Kaleidotrope" when commercial versions were marketed.[77]
  • the Cycloidotrope (circa 1865): a slide with an adjustable stylus bar for drawing geometric patterns on sooty glass when hand cranked during projection. The patterns are similar to that produced with a Spirograph.[67]
  • a Newton colour wheel slide that, when spinning fast enough, blends seven colours into a white circle[67]

Dissolving views edit

Main article: Dissolving views
 
Advertisement with picture of a triple lantern / dissolving view apparatus (1886)

The effect of a gradual transition from one image to another, known as a dissolve in modern filmmaking, became the basis of a popular type of magic lantern show in England in the 19th century. Typical dissolving views showed landscapes dissolving from day to night or from summer to winter. This was achieved by aligning the projection of two matching images and slowly diminishing the first image while introducing the second image.[63] The subject and the effect of magic lantern dissolving views is similar to the popular Diorama theatre paintings that originated in Paris in 1822. 19th century magic lantern broadsides often used the terms dissolving view, dioramic view, or simply diorama interchangeably.[78]

The effect was reportedly invented by phantasmagoria pioneer Paul de Philipsthal while in Ireland in 1803 or 1804. He thought of using two lanterns to make the spirit of Samuel appear out of a mist in his representation of the Witch of Endor. While working out the desired effect, he got the idea of using the technique with landscapes. An 1812 newspaper about a London performance indicates that De Philipsthal presented what was possibly a relatively early incarnation of a dissolving views show, describing it as "a series of landscapes (in imitation of moonlight), which insensibly change to various scenes producing a very magical effect."[79][80]

Another possible inventor is Henry Langdon Childe, who purportedly once worked for De Philipsthal.[80] He is said to have invented the dissolving views in 1807, and to have improved and completed the technique in 1818.[81] The oldest known use of the term "dissolving views" occurs on playbills for Childe's shows at the Adelphi Theatre in London in 1837.[78] Childe further popularized the dissolving views at the Royal Polytechnic Institution in the early 1840s.[79]

Despite later reports about the early invention, and apart from De Philipsthal's 1812 performance, no reports of dissolving view shows before the 1820s are known. Some cases may involve confusion with the Diorama or similar media. In 1826, Scottish magician and ventriloquist M. Henry introduced what he described as "beautiful dissolvent scenes", "imperceptibly changing views", "dissolvent views", and "Magic Views"—created "by Machinery invented by M. Henry." In 1827, Henry Langdon Childe presented "Scenic Views, showing the various effects of light and shade," with a series of subjects that became classics for the dissolving views. In December 1827, De Philipsthal returned with a show that included "various splendid views (...) transforming themselves imperceptibly (as if it were by Magic) from one form into another."[78][80]

Biunial lanterns, with two projecting optical sets in one apparatus, were produced to more easily project dissolving views. Possibly the first horizontal biunial lantern, dubbed the "Biscenascope" was made by the optician Mr. Clarke and presented at the Royal Adelaide Gallery in London on 5 December 1840.[79] The earliest known illustration of a vertical biunial lantern, probably provided by E.G. Wood, appeared in the Horne & Thornthwaite catalogue in 1857.[62] Later on triple lanterns enabled additional effects, for instance the effect of snow falling while a green landscape dissolves into a snowy winter version.[82]: 13 

A mechanical device could be fitted on the magic lantern, which locked up a diaphragm on the first slide slowly whilst a diaphragm on a second slide opened simultaneously.[80]

Philip Carpenter's copper-plate printing process, introduced in 1823, may have made it much easier to create duplicate slides with printed outlines that could then be colored differently to create dissolving view slides.[80] However, all early dissolving view slides seem to have been hand-painted.[78]

Experiments edit

There have been many different experiments involving sorts of movement with the magic lantern. These include:

  • galvanometer slide: a flattened coil with a magnetized needle moving from side to side when a battery is connected.
  • projection of moving frog legs, with the nerves and muscles of severed frog legs connected to electric wires.
  • hour-glass projection: the projection of a flattened hourglass showed the sand flowing upwards. Extreme magnification made the effect extra impressive, with the grains of sand forming a wave-like pattern.
  • cohesion figure projection of liquids: different oils and fats create many kinds of moving patterns when manipulated between clear glass plates or a narrow glass box.

Several of these experiments were publicly demonstrated at the Royal Polytechnic Institution.[83]

Choreutoscope and phenakistiscope-type systems edit

Versions of the magic lantern were used to project transparent variations of the phénakisticope. These were adapted with a mechanism that spins the disc and a shutter system. Duboscq produced some in the 1850s and Thomas Ross patented a version called "Wheel of life" in 1869 and 1870.[84]

The Choreutoscope was invented around 1866 by the Greenwich engineer J. Beale and demonstrated at the Royal Polytechnic. It projected six pictures from a long slide and used a hand-cranked mechanism for intermittent movement of the slide and synchronized shutter action. The mechanism became a key to the development of the movie camera and projector. The Choreutoscope was used at the first professional public demonstration of the Kinetoscope to explain its principles.[82]: 86 

An "Optical Instrument" was patented in the U.S. in 1869 by O.B. Brown, using a phenakistiscope-like disc with a technique very close to the later cinematograph; with Maltese Cross motion; a star-wheel and pin being used for intermittent motion, and a two-sector shutter.[85]

Life in the lantern - Bio-Phantoscope edit

John Arthur Roebuck Rudge built a lantern for William Friese-Greene with a mechanism to project a sequence of seven photographic slides. Reports say it was made in 1872, but also 1875 and (most likely) 1882. The surviving slides show a man removing his head with his hands and raising the loose head. The photographed body belonged to Rudge and Friese-Greene posed for the head. The slides probably provided the very first trick photography sequence projection. Friese-Greene's demonstrated the machine in his shop, until the police ordered him to remove it when it attracted too large a crowd.[86]

Phantasmagoria edit

Main article: Phantasmagoria
 
Interpretation of Robertson's Fantasmagorie from F. Marion's L'Optique (1867)

Phantasmagoria was a form of horror theater that used one or more magic lanterns to project frightening images, especially of ghosts. Showmen used rear projection, mobile or portable projectors and a variety of effects to produce convincing necromantic experiences. It was very popular in Europe from the late 18th century to well into the 19th century.[80]

It is thought that optical devices like concave mirrors and the camera obscura have been used since antiquity to fool spectators into believing they saw real gods and spirits,[80] but it was the magician "physicist" Phylidor who created what must have been the first true phantasmagoria show. He probably used mobile magic lanterns with the recently invented Argand lamp[87]: 144  to create his successful Schröpferischen, und Cagliostoischen Geister-Erscheinungen (Schröpfer-esque and Cagiostro-esque Ghost Apparitions)[88] in Vienna from 1790 to 1792. Phylidor stated that his show of perfected apparitions revealed how charlatans like Johann Georg Schröpfer and Cagliostro had fooled their audiences. As "Paul Filidort," he presented his Phantasmagorie in Paris From December 1792 to July 1793, probably using that term for the first time. As "Paul de Philipsthal," he performed Phantasmagoria shows in Britain beginning in 1801 with great success.[89][90]

One of many showmen who were inspired by Phylidor, Etienne-Gaspard Robert became very famous with his own Fantasmagorie show in Paris from 1798 to 1803 (later performing throughout Europe and returning to Paris for a triumphant comeback in Paris in 1814). He patented a mobile "Fantascope" lantern in 1798.[80]

Royal Polytechnic Institution shows edit

When it opened in 1838, The Royal Polytechnic Institution in London became a very popular and influential venue with many kinds of magic lantern shows as an important part of its program. At the main theatre, with 500 seats, lanternists would make good use of a battery of six large lanterns running on tracked tables to project the finely detailed images of extra large slides on the 648 square feet screen. The magic lantern was used to illustrate lectures, concerts, pantomimes and other forms of theatre. Popular magic lantern presentations included Henry Langdon Childe's dissolving views, his chromatrope, phantasmagoria, and mechanical slides.[80][91]

Utushi-e edit

Utushi-e is a type of magic lantern show that became popular in Japan in the 19th century. The Dutch probably introduced the magic lantern in Japan before the 1760s. A new style for magic lantern shows was introduced by Kameya Toraku I, who first performed in 1803 in Edo. Possibly the phantasmagoria shows (popular in the west at that moment) inspired the rear projection technique, moving images and ghost stories. Japanese showmen developed lightweight wooden projectors (furo) that were handheld so that several performers could make the projections of different colourful figures move around the screen at the same time.[92] The Western techniques of mechanical slides were combined with traditional Japanese skills—especially from Karakuri puppets—to further animate the figures and for special effects.[93]

Today edit

Some enthusiasts claim that the brilliant quality of color in lantern slides is unsurpassed by successive projection media. The magic lantern and lantern slides are still popular with collectors and can be found in many museums. However, of the original lanterns from the first 150 years after its invention only 28 are known to still exist (as of 2009).[31] Because the original slides are fragile, rather than display or project them, museums often digitize the slides for exhibition.[94]

A collaborative research project of several European universities called A Million Pictures started in June 2015 and lasted until May 2018. It addresses the sustainable preservation of the massive, untapped heritage resource of the tens of thousands of lantern slides in the collections of libraries and museums across Europe.[95]

Genuine public lantern shows are relatively rare. Several regular performers claim they are the only one of their kind in their part of the world. These include Pierre Albanese and glass harmonica player Thomas Bloch live Magic Lantern/Phantasmagoria shows since 2008 in Europe[96] and The American Magic-Lantern Theater.[97] The Magic Lantern Society maintains a list of active lanternists, which contains more than 20 performers in the U.K. and around eight performers in other parts of the world (Europe, U.S., Canada, Australia and New Zealand).[98]

Dutch theatre group Lichtbende produces contemporary magical light spectacles and workshops with magic lanterns.[99]

See also edit

References edit

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External links edit

 
Look up magic lantern in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Magic lanterns.
  • website with more than 8000 lantern slides online
  • Joseph Boggs Beale Collection at the Harry Ransom Center
  • Cinema and its Ancestors: The Magic of Motion Video interview with Tom Gunning
  • A live Magic Lantern performance with accompaniment of crystal instruments is proposed here – feat. Pierre Albanese and Thomas Bloch
  • Live Magic Lantern Shows The American Magic Lantern Theater
  • Magic Lantern – A School of Cinema Film Institute Chennai
  • University of Tasmania Library Lantern Slide Collection
  • LUCERNA - The Magic Lantern Web Resource
  • The Magic Lantern Society An introduction to lantern history featuring images of lanterns, slides, and lantern accessories
  • Joseph Boggs Beale collection of magic lantern illustrations, Margaret Herrick Library, Academy of Motion Picture Arts and Sciences
  • Images of Lantern Slides from the National Museum of Australia
  • The Magic Lantern Society, United Kingdom
  • The Lantern Slide Collection at the New-York Historical Society
  • QUT Digital Collections - Historical images of Japan
  • Lantern Slide Collection at Cleveland Public Library's Digital Gallery. The lantern slides are part of the library's W. Ward Marsh Collection.

February 15, 2024
magic, lantern, this, article, about, early, type, image, projector, other, uses, disambiguation, magic, lantern, also, known, latin, name, lanterna, magica, early, type, image, projector, that, used, pictures, paintings, prints, photographs, transparent, plat. This article is about the early type of image projector For other uses see Magic lantern disambiguation The magic lantern also known by its Latin name lanterna magica was an early type of image projector that used pictures paintings prints or photographs on transparent plates usually made of glass one or more lenses and a light source Because a single lens inverts an image projected through it as in the phenomenon which inverts the image of a camera obscura slides were inserted upside down in the magic lantern rendering the projected image correctly oriented 1 19th century magic lantern with printed slide incorrectly inserted upright which would be projected by the lantern as an inverted picture 1 Magic lantern slide by Carpenter and WestleyIt was mostly developed in the 17th century and commonly used for entertainment purposes It was increasingly used for education during the 19th century Since the late 19th century smaller versions were also mass produced as toys The magic lantern was in wide use from the 18th century until the mid 20th century when it was superseded by a compact version that could hold many 35 mm photographic slides the slide projector Christiaan Huygens is credited as the inventor of the magic lantern described in correspondence of 1659 2 There are others to whom such a lantern device has been attributed such as Giambattista della Porta and Cornelis Drebbel though Huygens s design used lens for better projection Athanasius Kircher has also been credited for that 3 Contents 1 Technology 1 1 Apparatus 1 2 Slides 1 3 Light sources 2 Precursors 2 1 Camera obscura 2 2 Steganographic mirror 3 Invention 3 1 Christiaan Huygens 3 2 Walgensten the Dane 3 3 Possible German origins Wiesel and Griendel 4 Further history 4 1 Early adopters 4 2 Educational use and other subjects 4 3 Mass slide production 4 4 Waning popularity 5 Moving images 5 1 History 5 2 Various types of mechanical slides 5 3 Dissolving views 5 4 Experiments 5 5 Choreutoscope and phenakistiscope type systems 5 6 Life in the lantern Bio Phantoscope 6 Phantasmagoria 7 Royal Polytechnic Institution shows 8 Utushi e 9 Today 10 See also 11 References 12 External linksTechnology editApparatus edit nbsp A page of Willem s Gravesande s 1720 book Physices Elementa Mathematica with Jan van Musschenbroek s magic lantern projecting a monster The depicted lantern is one of the oldest known preserved examples and is in the collection of Museum Boerhaave LeidenThe magic lantern used a concave mirror behind a light source to direct the light through a small rectangular sheet of glass a lantern slide that bore the image and onward into a lens at the front of the apparatus The lens adjusted to focus the plane of the slide at the distance of the projection screen which could be simply a white wall and it therefore formed an enlarged image of the slide on the screen 4 Some lanterns including those of Christiaan Huygens and Jan van Musschenbroek used three lenses for the objective 5 6 Biunial lanterns with two objectives became common during the 19th century and enabled a smooth and easy change of pictures Stereopticons added more powerful light sources to optimize the projection of photographic slides 7 Slides edit Originally the pictures were hand painted on glass slides Initially figures were rendered with black paint but soon transparent colors were also used Sometimes the painting was done on oiled paper Usually black paint was used as a background to block superfluous light so the figures could be projected without distracting borders or frames Many slides were finished with a layer of transparent lacquer but in a later period cover glasses were also used to protect the painted layer 8 Most handmade slides were mounted in wood frames with a round or square opening for the picture 9 nbsp A paper rimmed mass produced slideAfter 1820 the manufacturing of hand colored printed slides started often making use of decalcomania transfers 10 Many manufactured slides were produced on strips of glass with several pictures on them and rimmed with a strip of glued paper 11 The first photographic lantern slides called hyalotypes were invented by the German born brothers Ernst Wilhelm William and Friedrich Frederick Langenheim in 1848 in Philadelphia and patented in 1850 11 12 13 Light sources edit Apart from sunlight the only light sources available at the time of invention in the 17th century were candles and oil lamps which were very inefficient and produced very dim projected images The invention of the Argand lamp in the 1790s helped to make the images brighter The invention of limelight in the 1820s made them even brighter emitting about 6000 8000 lumens 14 The invention of the intensely bright electric arc lamp in the 1860s eliminated the need for combustible gases or hazardous chemicals and eventually the incandescent electric lamp further improved safety and convenience although not brightness 15 Precursors editFurther information projector Several types of projection systems existed before the invention of the magic lantern Giovanni Fontana Leonardo da Vinci and Cornelis Drebbel described or drew image projectors that had similarities to the magic lantern 16 In the 17th century there was an immense interest in optics The telescope and microscope were invented in 1608 and the 1620s respectively and apart from being useful to some scientists such instruments were especially popular as entertaining curiosities to people who could afford them 17 The magic lantern would prove a natural successor Camera obscura edit The magic lantern can be seen as a further development of camera obscura This is a natural phenomenon that occurs when an image of a scene at the other side of a screen for instance a wall is projected through a small hole in that screen as an inverted image left to right and upside down on a surface opposite to the opening It was known at least since the 5th century BC and experimented with in darkened rooms at least since c 1000 AD The use of a lens in the hole has been traced back to c 1550 The portable camera obscura box with a lens was developed in the 17th century Dutch inventor Cornelis Drebbel is thought to have sold one to Dutch poet composer and diplomat Constantijn Huygens in 1622 18 while the oldest known clear description of a box type camera is in German Jesuit scientist Gaspar Schott s 1657 book Magia universalis naturae et artis 19 Steganographic mirror edit nbsp Illustration of Kircher s Steganographic mirror in his 1645 book Ars Magna Lucis et UmbraeThe 1645 first edition of German Jesuit scholar Athanasius Kircher s book Ars Magna Lucis et Umbrae included a description of his invention the Steganographic Mirror a primitive projection system with a focusing lens and text or pictures painted on a concave mirror reflecting sunlight mostly intended for long distance communication He saw limitations in the increase of size and diminished clarity over a long distance and expressed his hope that someone would find a method to improve on this 20 In 1654 Belgian Jesuit mathematician Andre Tacquet used Kircher s technique to show the journey from China to Belgium of Italian Jesuit missionary Martino Martini 21 Some reports say that Martini lectured throughout Europe with a magic lantern which he might have imported from China but there s no evidence that it used anything other than Kircher s technique However Tacquet was a correspondent and friend of Christiaan Huygens and may thus have been a very early adapter of the magic lantern technique that Huygens developed around this period 22 23 Invention editChristiaan Huygens edit nbsp A sketch of the lantern configuration without a slide from Huygens letter to Pierre Petit 11 December 1664 nbsp Huygens 1659 sketches for a projection of Death taking off his headDutch scientist Christiaan Huygens is considered as one of the possible inventors of the magic lantern He knew Athanasius Kircher s 1645 edition of Ars Magna Lucis et Umbrae 24 which described a primitive projection system with a focusing lens and text or pictures painted on a concave mirror reflecting sunlight Christiaan s father Constantijn had been acquainted with Cornelis Drebbel who used some unidentified optical techniques to transform himself and to summon appearances in magical performances Constantijn Huygens wrote about a camera obscura device that he got from Drebbel in 1622 18 The oldest known document concerning the magic lantern is a page on which Christiaan Huygens made ten small sketches of a skeleton taking off its skull above which he wrote for representations by means of convex glasses with the lamp translated from French As this page was found between documents dated in 1659 it is believed to have been made in the same year 25 Huygens soon seemed to regret this invention as he thought it was too frivolous In a 1662 letter to his brother Lodewijk he claimed he thought of it as some old bagatelle and seemed convinced that it would harm the family s reputation if people found out the lantern came from him Christiaan had reluctantly sent a lantern to their father but when he realized that Constantijn intended to show the lantern to the court of King Louis XIV of France at the Louvre Christiaan asked Lodewijk to sabotage the lantern 26 nbsp Huygens 1694 laterna magica sketch showing speculum cavum hollow mirror lucerna lamp lens vitrea glass lens pictura pellucida transparent picture lens altera other lens paries wall Christiaan initially referred to the magic lantern as la lampe and la lanterne but in the last years of his life he used the then common term laterna magica in some notes In 1694 he drew the principle of a laterna magica with two lenses 27 Walgensten the Dane edit nbsp Walgensten s magic lantern as illustrated in Claude Dechales Cursus seu Mundus Mathematicus Tomus secundus 1674 Thomas Rasmussen Walgensten da c 1627 1681 a mathematician from Gotland studied at the university of Leiden in 1657 58 He possibly met Christiaan Huygens during this time and or on several other occasions and may have learned about the magic lantern from him Correspondence between them is known from 1667 At least from 1664 until 1670 Walgensten demonstrated the magic lantern in Paris 1664 Lyon 1665 Rome 1665 1666 and Copenhagen 1670 17 He sold such lanterns to different Italian princes in such an amount that they now are almost everyday items in Rome according to Athanasius Kircher in 1671 28 In 1670 Walgensten projected an image of Death at the court of King Frederick III of Denmark This scared some courtiers but the king dismissed their cowardice and requested to repeat the figure three times The king died a few days later After Walgensten died his widow sold his lanterns to the Royal Danish Collection da but they have not been preserved 17 Walgensten is credited with coining the term Laterna Magica 29 assuming he communicated this name to Claude Dechales who in 1674 published about seeing the machine of the erudite Dane in 1665 in Lyon 30 Possible German origins Wiesel and Griendel edit nbsp Illustration of an early southern German lantern from Johann Sturm Collegium Experimentale 1677 There are many gaps and uncertainties in the magic lantern s recorded history A separate early magic lantern tradition seems to have been developed in southern Germany and includes lanterns with horizontal cylindrical bodies while Walgensten s lantern and probably Huygens both had vertical bodies This tradition dates at least to 1671 with the arrival of instrument maker Johann Franz Griendel in the city of Nurnberg which Johann Zahn identified as one of the centers of magic lantern production in 1686 Griendel was indicated as the inventor of the magic lantern by Johann Christoph Kohlhans in a 1677 publication 31 It has been suggested that this tradition is older and that instrument maker Johann Wiesel 1583 1662 from Augsburg may have been making magic lanterns earlier on and possibly inspired Griendel and even Huygens Huygens is known to have studied samples of Wiesel s lens making and instruments since 1653 Wiesel did make a ship s lantern around 1640 that has much in common with the magic lantern design that Griendel would later apply a horizontal cylindrical body with a rosette chimney on top a concave mirror behind a fixture for a candle or lamp inside and a biconvex lens at the front There is no evidence that Wiesel actually ever made a magic lantern but in 1674 his successor offered a variety of magic lanterns from the same workshop This successor is thought to have only continued producing Wiesel s designs after his death in 1662 without adding anything new 32 Further history editEarly adopters edit Before 1671 only a small circle of people seemed to have knowledge of the magic lantern and almost every known report of the device from this period had to do with people that were more or less directly connected to Christiaan Huygens Despite the rejection expressed in his letters to his brother Huygens must have familiarized several people with the lantern 33 In 1664 Parisian engineer Pierre Petit wrote to Huygens to ask for some specifications of the lantern because he was trying to construct one after seeing the lantern of the dane probably Walgensten The lantern that Petit was constructing had a concave mirror behind the lamp 34 This directed more light through the lens resulting in a brighter projection and it would become a standard part of most of the lanterns that were made later Petit may have copied it from Walgensten but he expressed that he made a lamp stronger than any he had ever seen 17 Starting in 1661 Huygens corresponded with London optical instrument maker Richard Reeve 17 Reeve was soon selling magic lanterns demonstrated one in his shop on 17 May 1663 to Balthasar de Monconys 35 and sold one to Samuel Pepys in August 1666 36 37 nbsp Illustration from Kircher s 1671 Ars Magna Lucis et Umbrae projection of hellfire or purgatory nbsp Illustration from Kircher s 1671 Ars Magna Lucis et Umbrae projection of DeathOne of Christiaan Huygens contacts imagined how Athanasius Kircher would use the magic lantern If he would know about the invention of the Lantern he would surely frighten the cardinals with specters 38 Kircher would eventually learn about the existence of the magic lantern via Thomas Walgensten and introduced it as Lucerna Magica in the widespread 1671 second edition of his book Ars Magna Lucis et Umbrae 39 Kircher claimed that Thomas Walgensten reworked his ideas from the previous edition of this book into a better lantern Kircher described this improved lantern but it was illustrated in a confusing manner 40 the pictures seem technically incorrect with both the projected image and the transparencies H shown upright while the text states that they should be inverted the hollow mirror is too high in one picture and absent in the other and the lens I is at the wrong side of the slide However experiments with a construction as illustrated in Kircher s book proved that it could work as a point light source projection system 41 The projected image in one of the illustrations shows a person in purgatory or hellfire and the other depicts Death with a scythe and an hourglass According to legend Kircher secretly used the lantern at night to project the image of Death on windows of apostates to scare them back into church 42 Kircher did suggest in his book that an audience would be more astonished by the sudden appearance of images if the lantern would be hidden in a separate room so the audience would be ignorant of the cause of their appearance 40 Educational use and other subjects edit nbsp Illustration of a lantern slide depicting Bacchus in Sturm s Collegium experimentale sive curiosum 1677 The earliest reports and illustrations of lantern projections suggest that they were all intended to scare the audience Pierre Petit called the apparatus lanterne de peur lantern of fear in his 1664 letter to Huygens 34 Surviving lantern plates and descriptions from the next decades prove that the new medium was not just used for horror shows but that many kinds of subjects were projected Griendel didn t mention scary pictures when he described the magic lantern to Gottfried Wilhelm Leibniz in December 1671 An optical lantern which presents everything that one desires figures paintings portraits faces hunts even an entire comedy with all its lively colours 43 In 1675 Leibniz saw an important role for the magic lantern in his plan for a kind of world exhibition with projections of attempts at flight artistic meteors optical effects representations of the sky with the star and comets and a model of the earth fireworks water fountains and ships in rare forms then mandrakes and other rare plants and exotic animals In 1685 1686 Johannes Zahn was an early advocate for use of the device for educational purposes detailed anatomical illustrations were difficult to draw on a chalkboard but could easily be copied onto glass or mica 17 nbsp 1737 etching engraving of an organ grinder with a magic lantern on her back by Anne Claude de Caylus after Edme Bouchardon By the 1730s the use of magic lanterns started to become more widespread when travelling showmen conjurers and storytellers added them to their repertoire The travelling lanternists were often called Savoyards they supposedly came from the Savoy region in France and became a common sight in many European cities 17 In France in the 1770s Francois Dominique Seraphin used magic lanterns to perform his Ombres Chinoises Chinese shadows a form of shadow play 44 Magic lanterns had also become a staple of science lecturing and museum events since Scottish lecturer Henry Moyes s tour of America in 1785 86 when he recommended that all college laboratories procure one French writer and educator Stephanie Felicite comtesse de Genlis popularized the use of magic lanterns as an educational tool in the late 1700s when using projected images of plants to teach botany Her educational methods were published in America in English translation during the early 1820s 45 A type of lantern was constructed by Moses Holden between 1814 and 1815 for illustrating his astronomical lectures 46 Mass slide production edit In 1821 Philip Carpenter s London company which became Carpenter and Westley after his death started manufacturing a sturdy but lightweight and transportable Phantasmagoria lantern with an Argand style lamp It produced high quality projections and was suitable for classrooms Carpenter also developed a secret copper plate printing burning process to mass produce glass lantern slides with printed outlines which were then easily and quickly hand painted ready for sale 47 These copper plate sliders contained three or four very detailed 4 circular images mounted in thin hardwood frames The first known set The Elements of Zoology became available in 1823 with over 200 images in 56 frames of zoological figures classified according to the system of the Swedish scientist Carl Linnaeus The same year many other slides appeared in the company s catalogue The Kings and Queens of England 9 sliders taken from David Hume s History of England Astronomical Diagrams and Constellations 9 sliders taken from Friedrich Wilhelm Herschel s textbooks Views and Buildings Ancient and Modern Costume 62 sliders from various sources 48 Fifteen sliders of the category Humorous provided some entertainment but the focus on education was obvious and very successful 49 Through the mid 19th century the market for magic lanterns was concentrated in Europe with production focused primarily on Italy France and England In 1848 a New York optician began advertising imported slides and locally produced magic lanterns By 1860 however mass production began to make magic lanterns more widely available and affordable with much of the production in the latter half of the 19th century concentrated in Germany 50 These smaller lanterns had smaller glass sliders which instead of wooden frames usually had colorful strips of paper glued around their edges with the images printed directly on the glass 51 Waning popularity edit The popularity of magic lanterns waned after the introduction of movies in the 1890s but they remained a common medium until slide projectors became widespread during the 1950s 52 Moving images edit nbsp Mice jump into the mouth of a sleeping bearded man on a popular mechanical slide from circa 1870 The magic lantern was not only a direct ancestor of the motion picture projector as a means for visual storytelling but it could itself be used to project moving images Some suggestion of movement could be achieved by alternating between pictures of different phases of a motion but most magic lantern animations used two glass slides projected together one with the stationary part of the picture and the other with the part that could be set in motion by hand or by a simple mechanism 53 689 699 Motion in animated slides was mostly limited to either two phases of a movement or transformation or a more gradual singular movement e g a train passing through a landscape These limitations made subjects with repetitive movements popular like the sails on a windmill turning around or children on a seesaw Movements could be repeated over and over and could be performed at different speeds A common technique that is comparable to the effect of a panning camera makes use of a long slide that is simply pulled slowly through the lantern and usually shows a landscape sometimes with several phases of a story within the continuous backdrop 53 689 699 54 7 Movement of projected images was also possible by moving the magic lantern itself This became a staple technique in phantasmagoria shows in the late 18th century often with the lantern sliding on rails or riding on small wheels and hidden from the view of the audience behind the projection screen 53 691 History edit In 1645 Kircher had already suggested projecting live insects and shadow puppets from the surface of the mirror in his Steganographic system to perform dramatic scenes 55 Christiaan Huygens 1659 sketches see above suggest he intended to animate the skeleton to have it take off its head and place it back on its neck This can be seen as an indication that the very first magic lantern demonstrations may already have included projections of simple animations 53 687 In 1668 Robert Hooke wrote about the effects of a type of magic lantern installation Spectators not well versed in optics that should see the various apparitions and disappearances the motions changes and actions that may this way be represented would readily believe them to be supernatural and miraculous 56 In 1675 German polymath and philosopher Gottfried Wilhelm Leibniz proposed a kind of world exhibition that would show all types of new inventions and spectacles In a handwritten document he supposed it should open and close with magic lantern shows including subjects which can be dismembered to represent quite extraordinary and grotesque movements which men would not be capable of making translated from French 57 58 Several reports of early magic lantern screenings possibly described moving pictures but are not clear enough to conclude whether the viewers saw animated slides or motion depicted in still images 53 In 1698 German engraver and publisher Johann Christoph Weigel described several lantern slides with mechanisms that made glass parts move over one fixed glass slide for instance by the means of a silk thread or grooves in which the mobile part slides 59 By 1709 a German optician and glass grinder named Themme or Temme made moving lantern slides including a carriage with rotating wheels a cupid with a spinning wheel a shooting gun and falling bombs Wheels were cut from the glass plate with a diamond and rotated by a thread that was spun around small brass wheels attached to the glass wheels A paper slip mask would be quickly pulled away to reveal the red fiery discharge and the bullet from a shooting gun Zacharias Conrad von Uffenbach visited Themme s shop and liked the effects but was disappointed about the very simple mechanisms Nonetheless he bought seven moving slides as well as twelve slides with four pictures each which he thought were delicately painted 60 Several types of mechanical slides were described and illustrated in Dutch professor of mathematics physics philosophy medicine and astronomy Pieter van Musschenbroek s second edition 1739 of Beginsels Der Natuurkunde see illustration below 61 Pieter was the brother of Jan van Musschenbroek the maker of an outstanding magic lantern with excellent lenses and a diaphragm see illustration above 53 688 In 1770 Edme Gilles Guyot described a method of using two slides for the depiction of a storm at sea with waves on one slide and ships and a few clouds on another Lanternists could project the illusion of mild waves turning into a wild sea tossing the ships around by increasing the movement of the separate slides Guyot also detailed how projection on smoke could be used to create the illusion of ghosts hovering in the air which would become a technique commonly used in phantasmagoria 53 691 An especially intricate multiple rackwork mechanism was developed to show the movements of the planets sometimes accompanied by revolving satellites revolving around the Sun In 1795 one M Dicas offered an early magic lantern system the Lucernal or Portable Eidouranian that showed the orbiting planets From around the 1820s mechanical astronomical slides became quite common 62 Various types of mechanical slides edit nbsp Mechanical slides for a magic lantern as illustrated in Petrus van Musschenbroek s Beginsels Der Natuurkunde second edition 1739 nbsp A stereopticon magic lanternVarious types of mechanisms were commonly used to add movement to the projected image slipping slides a movable glass plate with one or more figures or any part of a picture for which movement was desired was slipped over a stationary one directly by hand or with a small drawbar see Fig 7 on the illustration by Petrus van Musschenbroek a tightrope walker sliding across the rope A common example showed a creature that could move the pupils in its eyes as if looking in all directions A long piece of glass could show a procession of figures or a train with several wagons Quite convincing illusions of moving waves on a sea or lake have also been achieved with this method 63 slipping slides with masking black paint on portions of the moving plate would mask parts of the underlying image with a black background on the stationary glass This made it possible to hide and then reveal the previous position of a part for instance a limb to suggest repetitious movement The suggested movement would be rather jerky and usually operated quickly Masking in slides was also often used to create change rather than movement see Fig 6 on the illustration by Petrus van Musschenbroek a man his wig and his hat for instance a person s head could be replaced with that of an animal More gradual and natural movement was also possible for instance to make a nose grow very long by slowly moving a masking glass 64 lever slides the moving part was operated by a lever These could show a more natural movement than slipping slides and were mostly used for repetitive movements for instance a woodcutter raising and lowering his axe or a girl on a swing 63 see Fig 5 on the illustration by Petrus van Musschenbroek a drinking man raising and lowering his glass Fig 8 a lady curtsying pulley slides a pulley rotates the moving part and could for instance be used to turn the sails on a windmill 65 see fig 4 on illustration by Van Musschenbroek rack and pinion slides turning the handle of a rackwork would rotate or lift the moving part and could for instance be used to turn the sails on a windmill or for having a hot air balloon take off and descend A more complex astronomical rackwork slide showed the planets and their satellites orbiting around the sun 63 fantoccini slides jointed figures set in motion by levers thin rods or cams and worm wheels A popular version had a somersaulting monkey with arms attached to mechanism that made it tumble with dangling feet Named after the Italian word for animated puppets like marionettes or jumping jacks Two different British patents for slides with moving jointed figures were granted in 1891 66 a snow effect slide can add snow to another slide preferably of a winter scene by moving a flexible loop of material pierced with tiny holes in front of one of the lenses of a double or triple lantern 67 Mechanical slides with abstract special effects include nbsp Slide with a fantoccini trapeze artist and a chromatrope border design c 1880 the Chromatrope a slide that produces dazzling colorful geometrical patterns by rotating two painted glass discs in opposite directions originally with a double pulley mechanism but later usually with a rackwork mechanism 63 68 It was possibly invented around 1844 by English glass painter and showman Henry Langdon Childe 69 70 and soon added as a novelty to the program of the Royal Polytechnic Institution 71 72 the Astrometeoroscope or Astrometroscope a large slide that projected a lacework of dots forming constantly changing geometrical line patterns compared with stars and meteors It was invented in or before 1858 by the Hungarian engineer S Pilcher and used a very ingenious mechanism with two metal plates obliquely crossed with slits that moved to and fro in contrary directions Except for when the only known example was used in a performance it was kept locked away at the Polytechnic so no one could discover the secret technique When the Polytechnic auctioned the device Picher eventually paid an extravagant price for his own invention to keep its workings secret 73 74 the Eidotrope counter rotating discs of perforated metal or card or wire gauze or lace producing swirling Moire patterns of bright white dots It was invented by English scientist Charles Wheatstone in 1866 75 76 the Kaleidotrope a slide with a single perforated metal or cardboard disc suspended on a spiral spring The holes can be tinted with colored pieces of gelatin When struck the disc s vibration and rotation sends the colored dots of light swirling around in all sorts of shapes and patterns The device was demonstrated at the Royal Polytechnic Institution around 1870 and dubbed Kaleidotrope when commercial versions were marketed 77 the Cycloidotrope circa 1865 a slide with an adjustable stylus bar for drawing geometric patterns on sooty glass when hand cranked during projection The patterns are similar to that produced with a Spirograph 67 a Newton colour wheel slide that when spinning fast enough blends seven colours into a white circle 67 Dissolving views edit Main article Dissolving views nbsp Advertisement with picture of a triple lantern dissolving view apparatus 1886 The effect of a gradual transition from one image to another known as a dissolve in modern filmmaking became the basis of a popular type of magic lantern show in England in the 19th century Typical dissolving views showed landscapes dissolving from day to night or from summer to winter This was achieved by aligning the projection of two matching images and slowly diminishing the first image while introducing the second image 63 The subject and the effect of magic lantern dissolving views is similar to the popular Diorama theatre paintings that originated in Paris in 1822 19th century magic lantern broadsides often used the terms dissolving view dioramic view or simply diorama interchangeably 78 The effect was reportedly invented by phantasmagoria pioneer Paul de Philipsthal while in Ireland in 1803 or 1804 He thought of using two lanterns to make the spirit of Samuel appear out of a mist in his representation of the Witch of Endor While working out the desired effect he got the idea of using the technique with landscapes An 1812 newspaper about a London performance indicates that De Philipsthal presented what was possibly a relatively early incarnation of a dissolving views show describing it as a series of landscapes in imitation of moonlight which insensibly change to various scenes producing a very magical effect 79 80 Another possible inventor is Henry Langdon Childe who purportedly once worked for De Philipsthal 80 He is said to have invented the dissolving views in 1807 and to have improved and completed the technique in 1818 81 The oldest known use of the term dissolving views occurs on playbills for Childe s shows at the Adelphi Theatre in London in 1837 78 Childe further popularized the dissolving views at the Royal Polytechnic Institution in the early 1840s 79 Despite later reports about the early invention and apart from De Philipsthal s 1812 performance no reports of dissolving view shows before the 1820s are known Some cases may involve confusion with the Diorama or similar media In 1826 Scottish magician and ventriloquist M Henry introduced what he described as beautiful dissolvent scenes imperceptibly changing views dissolvent views and Magic Views created by Machinery invented by M Henry In 1827 Henry Langdon Childe presented Scenic Views showing the various effects of light and shade with a series of subjects that became classics for the dissolving views In December 1827 De Philipsthal returned with a show that included various splendid views transforming themselves imperceptibly as if it were by Magic from one form into another 78 80 Biunial lanterns with two projecting optical sets in one apparatus were produced to more easily project dissolving views Possibly the first horizontal biunial lantern dubbed the Biscenascope was made by the optician Mr Clarke and presented at the Royal Adelaide Gallery in London on 5 December 1840 79 The earliest known illustration of a vertical biunial lantern probably provided by E G Wood appeared in the Horne amp Thornthwaite catalogue in 1857 62 Later on triple lanterns enabled additional effects for instance the effect of snow falling while a green landscape dissolves into a snowy winter version 82 13 A mechanical device could be fitted on the magic lantern which locked up a diaphragm on the first slide slowly whilst a diaphragm on a second slide opened simultaneously 80 Philip Carpenter s copper plate printing process introduced in 1823 may have made it much easier to create duplicate slides with printed outlines that could then be colored differently to create dissolving view slides 80 However all early dissolving view slides seem to have been hand painted 78 Experiments edit There have been many different experiments involving sorts of movement with the magic lantern These include galvanometer slide a flattened coil with a magnetized needle moving from side to side when a battery is connected projection of moving frog legs with the nerves and muscles of severed frog legs connected to electric wires hour glass projection the projection of a flattened hourglass showed the sand flowing upwards Extreme magnification made the effect extra impressive with the grains of sand forming a wave like pattern cohesion figure projection of liquids different oils and fats create many kinds of moving patterns when manipulated between clear glass plates or a narrow glass box Several of these experiments were publicly demonstrated at the Royal Polytechnic Institution 83 Choreutoscope and phenakistiscope type systems edit Versions of the magic lantern were used to project transparent variations of the phenakisticope These were adapted with a mechanism that spins the disc and a shutter system Duboscq produced some in the 1850s and Thomas Ross patented a version called Wheel of life in 1869 and 1870 84 The Choreutoscope was invented around 1866 by the Greenwich engineer J Beale and demonstrated at the Royal Polytechnic It projected six pictures from a long slide and used a hand cranked mechanism for intermittent movement of the slide and synchronized shutter action The mechanism became a key to the development of the movie camera and projector The Choreutoscope was used at the first professional public demonstration of the Kinetoscope to explain its principles 82 86 An Optical Instrument was patented in the U S in 1869 by O B Brown using a phenakistiscope like disc with a technique very close to the later cinematograph with Maltese Cross motion a star wheel and pin being used for intermittent motion and a two sector shutter 85 Life in the lantern Bio Phantoscope edit John Arthur Roebuck Rudge built a lantern for William Friese Greene with a mechanism to project a sequence of seven photographic slides Reports say it was made in 1872 but also 1875 and most likely 1882 The surviving slides show a man removing his head with his hands and raising the loose head The photographed body belonged to Rudge and Friese Greene posed for the head The slides probably provided the very first trick photography sequence projection Friese Greene s demonstrated the machine in his shop until the police ordered him to remove it when it attracted too large a crowd 86 Phantasmagoria editMain article Phantasmagoria nbsp Interpretation of Robertson s Fantasmagorie from F Marion s L Optique 1867 Phantasmagoria was a form of horror theater that used one or more magic lanterns to project frightening images especially of ghosts Showmen used rear projection mobile or portable projectors and a variety of effects to produce convincing necromantic experiences It was very popular in Europe from the late 18th century to well into the 19th century 80 It is thought that optical devices like concave mirrors and the camera obscura have been used since antiquity to fool spectators into believing they saw real gods and spirits 80 but it was the magician physicist Phylidor who created what must have been the first true phantasmagoria show He probably used mobile magic lanterns with the recently invented Argand lamp 87 144 to create his successful Schropferischen und Cagliostoischen Geister Erscheinungen Schropfer esque and Cagiostro esque Ghost Apparitions 88 in Vienna from 1790 to 1792 Phylidor stated that his show of perfected apparitions revealed how charlatans like Johann Georg Schropfer and Cagliostro had fooled their audiences As Paul Filidort he presented his Phantasmagorie in Paris From December 1792 to July 1793 probably using that term for the first time As Paul de Philipsthal he performed Phantasmagoria shows in Britain beginning in 1801 with great success 89 90 One of many showmen who were inspired by Phylidor Etienne Gaspard Robert became very famous with his own Fantasmagorie show in Paris from 1798 to 1803 later performing throughout Europe and returning to Paris for a triumphant comeback in Paris in 1814 He patented a mobile Fantascope lantern in 1798 80 Royal Polytechnic Institution shows editWhen it opened in 1838 The Royal Polytechnic Institution in London became a very popular and influential venue with many kinds of magic lantern shows as an important part of its program At the main theatre with 500 seats lanternists would make good use of a battery of six large lanterns running on tracked tables to project the finely detailed images of extra large slides on the 648 square feet screen The magic lantern was used to illustrate lectures concerts pantomimes and other forms of theatre Popular magic lantern presentations included Henry Langdon Childe s dissolving views his chromatrope phantasmagoria and mechanical slides 80 91 Utushi e editUtushi e is a type of magic lantern show that became popular in Japan in the 19th century The Dutch probably introduced the magic lantern in Japan before the 1760s A new style for magic lantern shows was introduced by Kameya Toraku I who first performed in 1803 in Edo Possibly the phantasmagoria shows popular in the west at that moment inspired the rear projection technique moving images and ghost stories Japanese showmen developed lightweight wooden projectors furo that were handheld so that several performers could make the projections of different colourful figures move around the screen at the same time 92 The Western techniques of mechanical slides were combined with traditional Japanese skills especially from Karakuri puppets to further animate the figures and for special effects 93 Today editSome enthusiasts claim that the brilliant quality of color in lantern slides is unsurpassed by successive projection media The magic lantern and lantern slides are still popular with collectors and can be found in many museums However of the original lanterns from the first 150 years after its invention only 28 are known to still exist as of 2009 31 Because the original slides are fragile rather than display or project them museums often digitize the slides for exhibition 94 A collaborative research project of several European universities called A Million Pictures started in June 2015 and lasted until May 2018 It addresses the sustainable preservation of the massive untapped heritage resource of the tens of thousands of lantern slides in the collections of libraries and museums across Europe 95 Genuine public lantern shows are relatively rare Several regular performers claim they are the only one of their kind in their part of the world These include Pierre Albanese and glass harmonica player Thomas Bloch live Magic Lantern Phantasmagoria shows since 2008 in Europe 96 and The American Magic Lantern Theater 97 The Magic Lantern Society maintains a list of active lanternists which contains more than 20 performers in the U K and around eight performers in other parts of the world Europe U S Canada Australia and New Zealand 98 Dutch theatre group Lichtbende produces contemporary magical light spectacles and workshops with magic lanterns 99 See also editList of lantern slide collections Projector disambiguation Zoopraxiscope Catadioptric telescope Henry Underhill 1855 1920 magic lantern lecturerReferences edit a b Erecting the inverted image In the magic lantern Henry Morton Ph D Journal of the Franklin Institute Volume 83 Issue 6 June 1867 Pages 406 409 A lens as every one knows inverts the image which it makes of any object hence in the magic lantern we insert the image upside down Jordan D Marche 2005 Theaters Of Time And Space American Planetariums 1930 1970 Rutgers University Press p 11 ISBN 978 0 8135 3576 0 Archived from the original on 17 June 2016 Retrieved 23 April 2013 C D Andriesse 25 August 2005 Huygens The Man Behind the Principle Cambridge University Press p 128 ISBN 978 0 521 85090 2 Archived from the original on 16 June 2016 Retrieved 23 April 2013 Pfragner Julius An Optician Looks for Work The Motion Picture From Magic Lantern to Sound Great Britain Bailey Brothers and Swinfen Ltd 9 21 Print Buddingh Daan 2007 De toverlantaarn in Nederland The Magic Lantern in the Netherlands Het Photohistorisch Tijdschrift No 2 Retrieved 16 September 2022 Mannoni Laurent December 2012 The Tour of the World by Magic Lantern Eugene Danguy s Diaphorama The New Magic Lantern Journal 11 3 Retrieved 16 September 2022 Biunial and Triunial Magic Lanterns De Luikerwaal Retrieved 16 September 2022 All about lantern slides 1 All about magic lantern slides 2 www luikerwaal com All about lantern slides 1 De Luikerwaal a b Timby Kim 2016 Glass Transparencies Marketing Photography s Luminosity and Precision PhotoResearcher 25 Improvement in photographic pictures on glass William and Frederick Langenheim at Historic Camera Historic Camera Laterna Magica the simple device that changed the way we view the world Waddington Damer Introduction Panoramas Magic Lanterns and Cinemas Channel Islands NJ Tocan Books xiii xv Print The Evolution of Scientific Instruments Engineering An Illustrated Weekly Journal Vol CXIX no 3092 3 April 1925 p 407 via Google Books a b c d e f g Rossell Deac 2002 The Magic Lantern In von Dewitz Bodo Nekes Werner eds Ich sehe was was Du nicht siehst Sehmaschinen und Bilderwelten Die Sammlung Werner Nekes I Can See What You Cannot See Seeing Machines and Worlds of Images The Collection of Werner Nekes Gottingen Germany Steidl Verlag ISBN 3 88243 856 8 OCLC 248511845 via Academia edu a b Snyder Laura J 2015 Eye of the Beholder Johannes Vermeer Antoni van Leeuwenhoek and the Reinvention of Seeing New York City W W Norton ISBN 978 0 393 07746 9 OCLC 892514232 Vermeir Koen 2005 The Magic of the Magic Lantern 1660 1700 On Analogical Demonstration and the Visualization of the Invisible The British Journal for the History of Science 38 2 127 159 doi 10 1017 S0007087405006709 ISSN 0007 0874 JSTOR 4028694 S2CID 143404000 Kircher Athanasius 1645 Ars Magna Lucis et Umbrae Rome Italy Sumptibus Hermanni Scheus p 912 Golvers Noel 1994 De recruteringstocht van M Martini S J door de Lage Landen in 1654 Over geomantische kompassen Chinese verzamelingen lichtbeelden en R P Wilhelm van Aelst S J The Recruitment Journey of M Martini S J through the Low Countries in 1654 About geomantic compasses Chinese collections light images and R P Wilhelm van Aelst S J De Zeventiende Eeuw in Dutch 10 Rossell Deac 2008 Laterna Magica Magic Lantern Vol 1 Stuttgart Germany Fusslin Verlag p 19 ISBN 978 3 940769 00 8 OCLC 315395149 Engels Wolfgang Staubermann Klaus 2016 Replicating 18th Century Magic Lantern Practice PDF Bulletin of the Scientific Instrument Society No 130 p 40 via CORE Huygens Christiaan 1629 1695 Auteur du texte Oeuvres completes de Christiaan Huygens Supplement a la correspondance varia Biographie de Chr Huygens Catalogue de la vente des livres de Chr Huygens publ par la Societe hollandaise des sciences M Nijhoff via gallica bnf fr a href Template Cite book html title Template Cite book cite book a CS1 maint numeric names authors list link Huygens Christiaan Pour des representations par le moyen de verres convexes a la lampe in French Huygens Christiaan 19 April 1662 letter to Lodewijk Huygens in French Huygens Christiaan 1694 Aanhangsel II bij het eerste Complement van de Dioptrica in Dutch Rendel Mats About the Construction of The Magic Lantern or The Sorcerers Lamp A Page About Athanasius Kircher Archived from the original on 18 January 2008 Auckland George Heard Mervyn An Introduction to Lantern History Part 4 The Magic Lantern Society Archived from the original on 19 April 2018 Retrieved 28 August 2017 Dechales Claude Francois Milliet 1674 Cursus seu Mundus Mathematicus The Course or The Mathematical World in Latin Vol Secundus a b Rossell Deac 2009 Early Magic Lantern Illustrations What Can They Tell Us About Magic Lantern History PDF The Magic Lantern Gazette Rossell Deac 2004 The Origins of the Magic Lantern in Germany Rossell Dean 2001 The True Inventor of the Magic Lantern PDF The New Magic Lantern Journal 9 1 8 9 a b Petit Pierre 28 November 1664 Letter to Christiaan Huygens Journal des voyages de Monsieur de Monconys Picturegoing picturegoing com 6 October 2016 Retrieved 28 August 2017 Sunday 19 August 1666 The Diary of Samuel Pepys pepysdiary com Retrieved 28 August 2017 Wednesday 22 August 1666 The Diary of Samuel Pepys pepysdiary com Retrieved 28 August 2017 letter from Pierre Guisony to Christiaan Huygens in French 25 March 1660 Kircher Athanasius 1671 Ars Magna Lucis et Umbrae in Latin Univ Santiago de Compostela pp 767 769 ISBN 9788481218428 Retrieved 19 August 2010 a b Kircher Athanasius Rendel Mats About the Construction of The Magic Lantern or The Sorcerers Lamp Magic lantern The mistery of the misplaced lens www luikerwaal com The miracle of the magic lantern www luikerwaal com Rossell Deac 2004 Sense and Nonsense in the use of Technology in Media History In Segeberg Harro ed Die Medien und ihre Technik Theorien Modelle Geschichte Marburg Germany Schuren via Academia edu Castle Terry 1995 The Female Thermometer Eighteenth Century Culture and the Invention of the Uncanny Oxford England Oxford University Press p 146 ISBN 1 4237 5848 X OCLC 252550734 Ganter Granville 2014 Mistress of Her Art Anne Laura Clarke Traveling Lecturer of the 1820s The New England Quarterly 87 4 709 746 doi 10 1162 TNEQ a 00418 ISSN 0028 4866 S2CID 57561922 Retrieved 28 August 2017 Holden Moses DNB00 Wikisource the free online library en m wikisource org Retrieved 17 September 2015 Talbot Stuart 2006 The Perfectionist Projectionist Philip Carpenter 24 Regent Street London PDF Bulletin of the Scientific Instrument Society 88 Archived from the original PDF on 7 October 2011 Carpenter Philip 1823 A Companion to the Magic Lantern Part II Roberts Phillip 2017 Philip Carpenter and the convergence of science and entertainment in the early nineteenth century instrument trade Science Museum Group Journal 7 7 doi 10 15180 170707 ISSN 2054 5770 S2CID 164263399 Koch Joe 2009 A Refersher on German Toy Lanterns PDF The Magic Lantern Gazette 21 3 26 ISSN 1059 1249 Lantern Slides Magic Lantern Society Retrieved 22 September 2022 Chamberlain Amelia 9 February 2020 Stillwater History Magic Lanterns and Technological Obsolescence Stillwater Living Retrieved 20 September 2022 a b c d e f g Rossell Deac 2005 The Magic Lantern and Moving Images before 1800 PDF Barockberichte 40 41 Huhtamo Erkki 2010 Natural Magic A Short Cultural History of Moving Images In Guynn William ed The Routledge Companion to Film History Milton Park England Routledge doi 10 4324 9780203841532 ISBN 9781136899409 Gorman Michael John 2007 Inside the Camera Obscura PDF p 44 The Philosophical Transactions of the Royal Society of London from Their Commencement in 1665 to the Year 1800 22 May 2018 via Google Books Rossell Deac 2002 Leibniz and the Lantern Gottfried Wilhelm Leibniz 1675 Drole de Pensee touchant une nouvelle sorte de representations Retrieved 26 January 2017 Mannoni Campagnoni Robinson 1995 Light and Movement Von Uffenbach 1753 Merkwurdige Reisen durch Niedersachsen Holland und Engelland Erster Theil in German pp 62 63 Van Musschenbroek Pieter 1739 Beginsels Der Natuurkunde p 617 633 a b The Magic Lantern Society Encyclopedia of the Magic Lantern p 21 22 a b c d e Luikerwaal Mechanical Slides www luikerwaal com Harris Skylar 17 February 2020 Early Animation the Alexis du Pont Stereoviews and Lantern Slides Collection Hagley Museum and Library Retrieved 22 September 2022 Magic lantern collection of moving magic lantern slides part 1 www luikerwaal com Fantoccini Slides www luikerwaal com a b c Luikerwaal Mechanical special effects slides www luikerwaal com Chromatropes www luikerwaal com A rare and large Henry Langdon Childe Mahogany Mounted and Brass Hand Painted Chromatrope pair o www the saleroom com Balzer Richard Dick Balzer s Website Homepage www dickbalzer com The Athenaeum 21 December 1844 The Royal Polytechnic Institution Catalogue for 1841 New edition 29 September 1845 via Google Books Hepworth Thomas Cradock 22 May 1888 The book of lantern being a practical guide to the working of the optical or magic lantern with full and precise directions for making and colouring lantern pictures London Wyman amp Sons via Internet Archive Popular Educator a Complete Encyclopaedia of Elementary Advanced and Technical Education Cassell 22 May 2018 via Google Books Timbs John 1867 The Year book of Facts in Science and Art Wheatstone Charles 1850 1875 Extracts from the papers of Sir Charles Wheatstone PDF The Magic Lantern Vol 1 No 2 October 1874 a b c d Huhtamo Erkki Ghost Notes Reading Mervyn Heard s Phantasmagoria The Secret Life of the Magic Lantern PDF The Magic Lantern Gazette 18 4 a b c The Mirror of Literature Amusement And Instruction 1842 p 98 a b c d e f g h i Heard Mervyn 2006 Phantasmagoria The Secret History of the Magic Lantern Hastings England The Projection Box ISBN 9781903000120 The Art journal New Series Volume XIII 1874 a b Rossell Deac 1998 Living Pictures The Origins of the Movies Albany New York State University of New York Press ISBN 0 585 06234 X OCLC 42636554 Hepworth T C 1888 The book of the lantern pp 171 203 Herbert Stephen Projection Phenakistoscope 1 www stephenherbert co uk Retrieved 19 July 2016 U S Patent No 93 594 10 August 1869 Lanterne de projection AP 94 33 Collection Catalogue des appareils cinematographiques La Cinematheque francaise cinematheque fr Retrieved 28 August 2017 Grau Oliver 2007 Remember the Phantasmagoria MediaArtHistories MIT Press Leonardo Books Phylidor Schropferischen und Cagliostoischen Geister Erscheinungen flyer 1790 Rossell Deac 2001 The 19th Century German Origins of the Phantasmagoria Show The Lantern Projections Colloquium The British Academy London Affiches annonces et avis divers 1793 07 23 The Magazine of Science and Schools of Art Vol IV 1843 p 410 What is Utsushi e www f waseda jp Taneita Slides www f waseda jp Youlden Mary 11 January 2018 Fragile images of Devon on show for the first time in a century The Exeter Daily The Exeter Daily Retrieved 22 September 2022 A Million Pictures Magic Lantern Slide Heritage A Million Pictures Thomas Bloch THOMAS BLOCH ONDES MARTENOT GLASSHARMONICA CRISTAL BASCHET performances ensembles thomasbloch net Retrieved 28 August 2017 American Magic Lantern Theater magiclanternshows com Retrieved 28 August 2017 Lanternists The Magic Lantern Society www magiclantern org uk LICHTBENDE logister home xs4all nl External links edit nbsp Look up magic lantern in Wiktionary the free dictionary nbsp Wikimedia Commons has media related to Magic lanterns magic lantern eu website with more than 8000 lantern slides online Joseph Boggs Beale Collection at the Harry Ransom Center Cinema and its Ancestors The Magic of Motion Video interview with Tom Gunning A live Magic Lantern performance with accompaniment of crystal instruments is proposed here feat Pierre Albanese and Thomas Bloch Live Magic Lantern Shows The American Magic Lantern Theater Magic Lantern A School of Cinema Film Institute Chennai University of Tasmania Library Lantern Slide Collection LUCERNA The Magic Lantern Web Resource The Magic Lantern Society An introduction to lantern history featuring images of lanterns slides and lantern accessories Joseph Boggs Beale collection of magic lantern illustrations Margaret Herrick Library Academy of Motion Picture Arts and Sciences Images of Lantern Slides from the National Museum of Australia The Magic Lantern Society United Kingdom The Lantern Slide Collection at the New York Historical Society QUT Digital Collections Historical images of Japan Lantern Slide Collection at Cleveland Public Library s Digital Gallery The lantern slides are part of the library s W Ward Marsh Collection Retrieved from https en wikipedia org w index php title Magic lantern amp oldid 1200869641, wikipedia, wiki, book, books, library,

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