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Thursday, September 24, 2020

Divine Comedy

From Wikipedia, the free encyclopedia

Dante shown holding a copy of the Divine Comedy, next to the entrance to Hell, the seven terraces of Mount Purgatory and the city of Florence, with the spheres of Heaven above, in Michelino's fresco

The Divine Comedy (Italian: Divina Commedia [diˈviːna komˈmɛːdja]) is a long Italian narrative poem by Dante Alighieri, begun c. 1308 and completed in 1320, a year before his death in 1321. It is widely considered to be the pre-eminent work in Italian literature and one of the greatest works of world literature. The poem's imaginative vision of the afterlife is representative of the medieval world-view as it had developed in the Western Church by the 14th century. It helped establish the Tuscan language, in which it is written, as the standardized Italian language. It is divided into three parts: Inferno, Purgatorio, and Paradiso.

The narrative takes as its literal subject the state of souls after death and presents an image of divine justice meted out as due punishment or reward, and describes Dante's travels through Hell, Purgatory, and Paradise or Heaven, while allegorically the poem represents the soul's journey towards God, beginning with the recognition and rejection of sin (Inferno), followed by the penitent Christian life (Purgatorio), which is then followed by the soul's ascent to God (Paradiso). Dante draws on medieval Roman Catholic theology and philosophy, especially Thomistic philosophy derived from the Summa Theologica of Thomas Aquinas. Consequently, the Divine Comedy has been called "the Summa in verse". In Dante's work, the pilgrim Dante is accompanied by three guides: Virgil (who represents human reason), Beatrice (who represents divine revelation, theology, faith, and grace), and Saint Bernard of Clairvaux (who represents contemplative mysticism and devotion to Mary). Erich Auerbach said Dante was the first writer to depict human beings as the products of a specific time, place and circumstance as opposed to mythic archetypes or a collection of vices and virtues; this along with the fully imagined world of "The Divine Comedy", different from our own but fully visualized, suggests that the Divine Comedy could be said to have inaugurated modern fiction.

The work was originally simply titled Comedìa (pronounced [komeˈdiːa]; so also in the first printed edition, published in 1472), Tuscan for "Comedy", later adjusted to the modern Italian Commedia. The adjective Divina was added by Giovanni Boccaccio, and the first edition to name the poem Divina Comedia in the title was that of the Venetian humanist Lodovico Dolce, published in 1555 by Gabriele Giolito de' Ferrari.

Structure and story

The Divine Comedy is composed of 14,233 lines that are divided into three cantiche (singular cantica) – Inferno (Hell), Purgatorio (Purgatory), and Paradiso (Paradise) – each consisting of 33 cantos (Italian plural canti). An initial canto, serving as an introduction to the poem and generally considered to be part of the first cantica, brings the total number of cantos to 100. It is generally accepted, however, that the first two cantos serve as a unitary prologue to the entire epic, and that the opening two cantos of each cantica serve as prologues to each of the three cantiche.

The number three is prominent in the work (alluding to the Trinity), represented in part by the number of cantiche and their lengths. Additionally, the verse scheme used, terza rima, is hendecasyllabic (lines of eleven syllables), with the lines composing tercets according to the rhyme scheme aba, bcb, cdc, ded, .... The total number of syllables in each tercet is thus 33, the same as the number of cantos in each cantica.

Written in the first person, the poem tells of Dante's journey through the three realms of the dead, lasting from the night before Good Friday to the Wednesday after Easter in the spring of 1300. The Roman poet Virgil guides him through Hell and Purgatory; Beatrice, Dante's ideal woman, guides him through Heaven. Beatrice was a Florentine woman he had met in childhood and admired from afar in the mode of the then-fashionable courtly love tradition, which is highlighted in Dante's earlier work La Vita Nuova.

The structure of the three realms follows a common numerical pattern of 9 plus 1, for a total of 10: 9 circles of the Inferno, followed by Lucifer contained at its bottom; 9 rings of Mount Purgatory, followed by the Garden of Eden crowning its summit; and the 9 celestial bodies of Paradiso, followed by the Empyrean containing the very essence of God. Within each group of 9, 7 elements correspond to a specific moral scheme, subdivided into three subcategories, while 2 others of greater particularity are added to total nine. For example, the seven deadly sins of the Catholic Church that are cleansed in Purgatory are joined by special realms for the late repentant and the excommunicated by the church. The core seven sins within Purgatory correspond to a moral scheme of love perverted, subdivided into three groups corresponding to excessive love (Lust, Gluttony, Greed), deficient love (Sloth), and malicious love (Wrath, Envy, Pride).

In central Italy's political struggle between Guelphs and Ghibellines, Dante was part of the Guelphs, who in general favored the Papacy over the Holy Roman Emperor. Florence's Guelphs split into factions around 1300 – the White Guelphs and the Black Guelphs. Dante was among the White Guelphs who were exiled in 1302 by the Lord-Mayor Cante de' Gabrielli di Gubbio, after troops under Charles of Valois entered the city, at the request of Pope Boniface VIII, who supported the Black Guelphs. This exile, which lasted the rest of Dante's life, shows its influence in many parts of the Comedy, from prophecies of Dante's exile to Dante's views of politics, to the eternal damnation of some of his opponents.

The last word in each of the three cantiche is stelle ("stars").

Inferno

Gustave Doré's engravings illustrated the Divine Comedy (1861–1868); here Charon comes to ferry souls across the river Acheron to Hell.

The poem begins on the night before Good Friday in 1300, "halfway along our life's path" (Nel mezzo del cammin di nostra vita). Dante is thirty-five years old, half of the biblical lifespan of 70 (Psalms 89:10, Vulgate), lost in a dark wood (understood as sin), assailed by beasts (a lion, a leopard, and a she-wolf) he cannot evade and unable to find the "straight way" (diritta via) – also translatable as "right way" – to salvation (symbolized by the sun behind the mountain). Conscious that he is ruining himself and that he is falling into a "low place" (basso loco) where the sun is silent ('l sol tace), Dante is at last rescued by Virgil, and the two of them begin their journey to the underworld. Each sin's punishment in Inferno is a contrapasso, a symbolic instance of poetic justice; for example, in Canto XX, fortune-tellers and soothsayers must walk with their heads on backwards, unable to see what is ahead, because that was what they had tried to do in life:

they had their faces twisted toward their haunches
and found it necessary to walk backward,
because they could not see ahead of them.
... and since he wanted so to see ahead,
he looks behind and walks a backward path.

Allegorically, the Inferno represents the Christian soul seeing sin for what it really is, and the three beasts represent three types of sin: the self-indulgent, the violent, and the malicious. These three types of sin also provide the three main divisions of Dante's Hell: Upper Hell, outside the city of Dis, for the four sins of indulgence (lust, gluttony, avarice, anger); Circle 7 for the sins of violence; and Circles 8 and 9 for the sins of fraud and treachery. Added to these are two unlike categories that are specifically spiritual: Limbo, in Circle 1, contains the virtuous pagans who were not sinful but were ignorant of Christ, and Circle 6 contains the heretics who contradicted the doctrine and confused the spirit of Christ.

Purgatorio

Dante gazes at Mount Purgatory in an allegorical portrait by Agnolo Bronzino, painted c. 1530

Having survived the depths of Hell, Dante and Virgil ascend out of the undergloom to the Mountain of Purgatory on the far side of the world. The Mountain is on an island, the only land in the Southern Hemisphere, created by the displacement of rock which resulted when Satan's fall created Hell (which Dante portrays as existing underneath Jerusalem). The mountain has seven terraces, corresponding to the seven deadly sins or "seven roots of sinfulness." The classification of sin here is more psychological than that of the Inferno, being based on motives, rather than actions. It is also drawn primarily from Christian theology, rather than from classical sources. However, Dante's illustrative examples of sin and virtue draw on classical sources as well as on the Bible and on contemporary events.

Love, a theme throughout the Divine Comedy, is particularly important for the framing of sin on the Mountain of Purgatory. While the love that flows from God is pure, it can become sinful as it flows through humanity. Humans can sin by using love towards improper or malicious ends (Wrath, Envy, Pride), or using it to proper ends but with love that is either not strong enough (Sloth) or love that is too strong (Lust, Gluttony, Greed). Below the seven purges of the soul is the Ante-Purgatory, containing the Excommunicated from the church and the Late repentant who died, often violently, before receiving rites. Thus the total comes to nine, with the addition of the Garden of Eden at the summit, equaling ten.

Allegorically, the Purgatorio represents the Christian life. Christian souls arrive escorted by an angel, singing In exitu Israel de Aegypto. In his Letter to Cangrande, Dante explains that this reference to Israel leaving Egypt refers both to the redemption of Christ and to "the conversion of the soul from the sorrow and misery of sin to the state of grace." Appropriately, therefore, it is Easter Sunday when Dante and Virgil arrive.

The Purgatorio is notable for demonstrating the medieval knowledge of a spherical Earth. During the poem, Dante discusses the different stars visible in the southern hemisphere, the altered position of the sun, and the various time zones of the Earth. At this stage it is, Dante says, sunset at Jerusalem, midnight on the River Ganges, and sunrise in Purgatory.

Paradiso

Paradiso, Canto III: Dante and Beatrice speak to Piccarda and Constance of Sicily, in a fresco by Philipp Veit.

After an initial ascension, Beatrice guides Dante through the nine celestial spheres of Heaven. These are concentric and spherical, as in Aristotelian and Ptolemaic cosmology. While the structures of the Inferno and Purgatorio were based on different classifications of sin, the structure of the Paradiso is based on the four cardinal virtues and the three theological virtues.

The seven lowest spheres of Heaven deal solely with the cardinal virtues of Prudence, Fortitude, Justice and Temperance. The first three spheres involve a deficiency of one of the cardinal virtues – the Moon, containing the inconstant, whose vows to God waned as the moon and thus lack fortitude; Mercury, containing the ambitious, who were virtuous for glory and thus lacked justice; and Venus, containing the lovers, whose love was directed towards another than God and thus lacked Temperance. The final four incidentally are positive examples of the cardinal virtues, all led on by the Sun, containing the prudent, whose wisdom lighted the way for the other virtues, to which the others are bound (constituting a category on its own). Mars contains the men of fortitude who died in the cause of Christianity; Jupiter contains the kings of Justice; and Saturn contains the temperate, the monks who abided by the contemplative lifestyle. The seven subdivided into three are raised further by two more categories: the eighth sphere of the fixed stars that contain those who achieved the theological virtues of faith, hope and love, and represent the Church Triumphant – the total perfection of humanity, cleansed of all the sins and carrying all the virtues of heaven; and the ninth circle, or Primum Mobile (corresponding to the Geocentricism of Medieval astronomy), which contains the angels, creatures never poisoned by original sin. Topping them all is the Empyrean, which contains the essence of God, completing the 9-fold division to 10.

Dante meets and converses with several great saints of the Church, including Thomas Aquinas, Bonaventure, Saint Peter, and St. John. The Paradiso is consequently more theological in nature than the Inferno and the Purgatorio. However, Dante admits that the vision of heaven he receives is merely the one his human eyes permit him to see, and thus the vision of heaven found in the Cantos is Dante's personal vision.

The Divine Comedy finishes with Dante seeing the Triune God. In a flash of understanding that he cannot express, Dante finally understands the mystery of Christ's divinity and humanity, and his soul becomes aligned with God's love:

But already my desire and my will
were being turned like a wheel, all at one speed,
by the Love which moves the sun and the other stars.

History

Manuscripts

According to the Italian Dante Society, no original manuscript written by Dante has survived, although there are many manuscript copies from the 14th and 15th centuries – some 800 are listed on their site.

Early printed editions

Title page of the first printed edition (Foligno, 11 April 1472)
 
First edition to name the poem Divina Comedia, 1555
 
Illustration of Lucifer in the first fully illustrated print edition. Woodcut for Inferno, canto 33. Pietro di Piasi, Venice, 1491.

The first printed edition was published in Foligno, Italy, by Johann Numeister and Evangelista Angelini da Trevi on 11 April 1472. Of the 300 copies printed, fourteen still survive. The original printing press is on display in the Oratorio della Nunziatella in Foligno.

Early printed editions
Date Title Place Publisher Notes
1472 La Comedia di Dante Alleghieri Foligno Johann Numeister and Evangelista Angelini da Trevi First printed edition (or editio princeps)
1477 La Commedia Venice Wendelin of Speyer
1481 Comento di Christophoro Landino fiorentino sopra la Comedia di Dante Alighieri Florence Nicolaus Laurentii With Cristoforo Landino's commentary in Italian, and some engraved illustrations by Baccio Baldini after designs by Sandro Botticelli
1491 Comento di Christophoro Landino fiorentino sopra la Comedia di Dante Alighieri Venice Pietro di Piasi First fully illustrated edition
1502 Le terze rime di Dante Venice Aldus Manutius
1506 Commedia di Dante insieme con uno diagolo circa el sito forma et misure dello inferno Florence Philippo di Giunta
1555 La Divina Comedia di Dante Venice Gabriel Giolito First use of "Divine" in title

Thematic concerns

The Divine Comedy can be described simply as an allegory: each canto, and the episodes therein, can contain many alternative meanings. Dante's allegory, however, is more complex, and, in explaining how to read the poem – see the Letter to Cangrande – he outlines other levels of meaning besides the allegory: the historical, the moral, the literal, and the anagogical.

The structure of the poem is also quite complex, with mathematical and numerological patterns distributed throughout the work, particularly threes and nines, which are related to the Holy Trinity. The poem is often lauded for its particularly human qualities: Dante's skillful delineation of the characters he encounters in Hell, Purgatory, and Paradise; his bitter denunciations of Florentine and Italian politics; and his powerful poetic imagination. Dante's use of real characters, according to Dorothy Sayers in her introduction to her translation of the Inferno, allows Dante the freedom of not having to involve the reader in description, and allows him to "[make] room in his poem for the discussion of a great many subjects of the utmost importance, thus widening its range and increasing its variety."

Dante called the poem "Comedy" (the adjective "Divine" was added later, in the 16th century) because poems in the ancient world were classified as High ("Tragedy") or Low ("Comedy"). Low poems had happy endings and were written in everyday language, whereas High poems treated more serious matters and were written in an elevated style. Dante was one of the first in the Middle Ages to write of a serious subject, the Redemption of humanity, in the low and "vulgar" Italian language and not the Latin one might expect for such a serious topic. Boccaccio's account that an early version of the poem was begun by Dante in Latin is still controversial.

Scientific themes

Although the Divine Comedy is primarily a religious poem, discussing sin, virtue, and theology, Dante also discusses several elements of the science of his day (this mixture of science with poetry has received both praise and criticism over the centuries). The Purgatorio repeatedly refers to the implications of a spherical Earth, such as the different stars visible in the southern hemisphere, the altered position of the sun, and the various time zones of the Earth. For example, at sunset in Purgatory it is midnight at the Ebro, dawn in Jerusalem, and noon on the River Ganges:

Just as, there where its Maker shed His blood,
the sun shed its first rays, and Ebro lay
beneath high Libra, and the ninth hour's rays

were scorching Ganges' waves; so here, the sun
stood at the point of day's departure when
God's angel – happy – showed himself to us.

Dante travels through the centre of the Earth in the Inferno, and comments on the resulting change in the direction of gravity in Canto XXXIV (lines 76–120). A little earlier (XXXIII, 102–105), he queries the existence of wind in the frozen inner circle of hell, since it has no temperature differentials.

Inevitably, given its setting, the Paradiso discusses astronomy extensively, but in the Ptolemaic sense. The Paradiso also discusses the importance of the experimental method in science, with a detailed example in lines 94–105 of Canto II:

Yet an experiment, were you to try it,
could free you from your cavil and the source
of your arts' course springs from experiment.

Taking three mirrors, place a pair of them
at equal distance from you; set the third
midway between those two, but farther back.

Then, turning toward them, at your back have placed
a light that kindles those three mirrors and
returns to you, reflected by them all.

Although the image in the farthest glass
will be of lesser size, there you will see
that it must match the brightness of the rest.

A briefer example occurs in Canto XV of the Purgatorio (lines 16–21), where Dante points out that both theory and experiment confirm that the angle of incidence is equal to the angle of reflection. Other references to science in the Paradiso include descriptions of clockwork in Canto XXIV (lines 13–18), and Thales' theorem about triangles in Canto XIII (lines 101–102).

Galileo Galilei is known to have lectured on the Inferno, and it has been suggested that the poem may have influenced some of Galileo's own ideas regarding mechanics.

Theories of influence from Islamic philosophy

In 1919, Miguel Asín Palacios, a Spanish scholar and a Catholic priest, published La Escatología musulmana en la Divina Comedia (Islamic Eschatology in the Divine Comedy), an account of parallels between early Islamic philosophy and the Divine Comedy. Palacios argued that Dante derived many features of and episodes about the hereafter from the spiritual writings of Ibn Arabi and from the Isra and Mi'raj or night journey of Muhammad to heaven. The latter is described in the ahadith and the Kitab al Miraj (translated into Latin in 1264 or shortly before as Liber Scalae Machometi, "The Book of Muhammad's Ladder"), and has significant similarities to the Paradiso, such as a sevenfold division of Paradise, although this is not unique to the Kitab al Miraj or Islamic cosmology.

Some "superficial similarities" of the Divine Comedy to the Resalat Al-Ghufran or Epistle of Forgiveness of Al-Ma'arri have also been mentioned in this debate. The Resalat Al-Ghufran describes the journey of the poet in the realms of the afterlife and includes dialogue with people in Heaven and Hell, although, unlike the Kitab al Miraj, there is little description of these locations, and it is unlikely that Dante borrowed from this work.

Dante did, however, live in a Europe of substantial literary and philosophical contact with the Muslim world, encouraged by such factors as Averroism ("Averrois, che'l gran comento feo" Commedia, Inferno, IV, 144, meaning "Averrois, who wrote the great comment") and the patronage of Alfonso X of Castile. Of the twelve wise men Dante meets in Canto X of the Paradiso, Thomas Aquinas and, even more so, Siger of Brabant were strongly influenced by Arabic commentators on Aristotle. Medieval Christian mysticism also shared the Neoplatonic influence of Sufis such as Ibn Arabi. Philosopher Frederick Copleston argued in 1950 that Dante's respectful treatment of Averroes, Avicenna, and Siger of Brabant indicates his acknowledgement of a "considerable debt" to Islamic philosophy.

Although this philosophical influence is generally acknowledged, many scholars have not been satisfied that Dante was influenced by the Kitab al Miraj. The 20th century Orientalist Francesco Gabrieli expressed skepticism regarding the claimed similarities, and the lack of evidence of a vehicle through which it could have been transmitted to Dante. Even so, while dismissing the probability of some influences posited in Palacios' work, Gabrieli conceded that it was "at least possible, if not probable, that Dante may have known the Liber Scalae and have taken from it certain images and concepts of Muslim eschatology". Shortly before her death, the Italian philologist Maria Corti pointed out that, during his stay at the court of Alfonso X, Dante's mentor Brunetto Latini met Bonaventura de Siena, a Tuscan who had translated the Kitab al Miraj from Arabic into Latin. Corti speculates that Brunetto may have provided a copy of that work to Dante. René Guénon, a Sufi convert and scholar of Ibn Arabi, rejected in The Esoterism of Dante the theory of his influence (direct or indirect) on Dante. Palacios' theory that Dante was influenced by Ibn Arabi was satirized by the Turkish academic Orhan Pamuk in his novel The Black Book.

Literary influence in the English-speaking world and beyond

A detail from one of Sandro Botticelli's illustrations for Inferno, Canto XVIII, 1480s. Silverpoint on parchment, completed in pen and ink.

The Divine Comedy was not always as well-regarded as it is today. Although recognized as a masterpiece in the centuries immediately following its publication, the work was largely ignored during the Enlightenment, with some notable exceptions such as Vittorio Alfieri; Antoine de Rivarol, who translated the Inferno into French; and Giambattista Vico, who in the Scienza nuova and in the Giudizio su Dante inaugurated what would later become the romantic reappraisal of Dante, juxtaposing him to Homer. The Comedy was "rediscovered" in the English-speaking world by William Blake – who illustrated several passages of the epic – and the Romantic writers of the 19th century. Later authors such as T. S. Eliot, Ezra Pound, Samuel Beckett, C. S. Lewis and James Joyce have drawn on it for inspiration. The poet Henry Wadsworth Longfellow was its first American translator, and modern poets, including Seamus Heaney, Robert Pinsky, John Ciardi, W. S. Merwin, and Stanley Lombardo, have also produced translations of all or parts of the book. In Russia, beyond Pushkin's translation of a few tercets, Osip Mandelstam's late poetry has been said to bear the mark of a "tormented meditation" on the Comedy. In 1934, Mandelstam gave a modern reading of the poem in his labyrinthine "Conversation on Dante". In T. S. Eliot's estimation, "Dante and Shakespeare divide the world between them. There is no third." For Jorge Luis Borges the Divine Comedy was "the best book literature has achieved".

English translations

New English translations of the Divine Comedy continue to be published regularly. Notable English translations of the complete poem include the following.

Year Translator Notes
1805–1814 Henry Francis Cary An older translation, widely available online.
1867 Henry Wadsworth Longfellow Unrhymed terzines. The first U.S. translation, raising American interest in the poem. It is still widely available, including online.
1891–1892 Charles Eliot Norton Prose translation used by Great Books of the Western World. Available online at Project Gutenberg.
1933–1943 Laurence Binyon Terza rima. Translated with assistance from Ezra Pound
1949–1962 Dorothy L. Sayers Translated for Penguin Classics, intended for a wider audience, and completed by Barbara Reynolds.
1969 Thomas G. Bergin Cast in blank verse with illustrations by Leonard Baskin.
1954–1970 John Ciardi His Inferno was recorded and released by Folkways Records in 1954.
1970–1991 Charles S. Singleton Literal prose version with extensive commentary; 6 vols.
1981 C. H. Sisson Available in Oxford World's Classics.
1980–1984 Allen Mandelbaum Available online.
1967–2002 Mark Musa An alternative Penguin Classics version.
2000–2007 Robert and Jean Hollander Online as part of the Princeton Dante Project.
2002–2004 Anthony M. Esolen Modern Library Classics edition.
2006–2007 Robin Kirkpatrick A third Penguin Classics version, replacing Musa's.
2010 Burton Raffel A Northwestern World Classics version.
2013 Clive James A poetic version in quatrains.

A number of other translators, such as Robert Pinsky, have translated the Inferno only.

In the arts

Rodin's The Kiss represents Paolo and Francesca from the Inferno.

The Divine Comedy has been a source of inspiration for countless artists for almost seven centuries. There are many references to Dante's work in literature. In music, Franz Liszt was one of many composers to write works based on the Divine Comedy. In sculpture, the work of Auguste Rodin includes themes from Dante, and many visual artists have illustrated Dante's work, as shown by the examples above. There have also been many references to the Divine Comedy in cinema, television, digital arts, comics and video games.

Connections (TV series)

From Wikipedia, the free encyclopedia
 
Connections
James Burke (historian).jpg
James Burke, the creator and host of Connections, explains the Haber-Bosch Process
GenreDocumentary
Written byJames Burke
Directed byMick Jackson
Presented byJames Burke
Country of originUnited Kingdom
Original language(s)English
No. of seasons3
No. of episodes40
Production
Running time50 minutes
(22 min Season 2)
Release
Original networkBBC
Original release17 October –
19 December 1978

Connections is a 10-episode documentary television series and 1978 book (Connections, based on the series) created, written, and presented by science historian James Burke. The series was produced and directed by Mick Jackson of the BBC Science and Features Department and first aired in 1978 (UK) and 1979 (USA). It took an interdisciplinary approach to the history of science and invention, and demonstrated how various discoveries, scientific achievements, and historical world events were built from one another successively in an interconnected way to bring about particular aspects of modern technology. The series was noted for Burke's crisp and enthusiastic presentation (and dry humour), historical re-enactments, and intricate working models.

The popular success of the series led to the production of The Day the Universe Changed (1985), a similar program but showing a more linear history of several important scientific developments. Years later, the success in syndication led to two sequels, Connections2 (1994) and Connections3 (1997), both for TLC. In 2004, KCSM-TV produced a program called Re-Connections, consisting of an interview of Burke and highlights of the original series, for the 25th anniversary of the first broadcast in the USA on PBS.

Content

Modern soldiers demonstrate the use of steel-tipped pikes by the Swiss against Charles the Bold in one of the many re-enactments used in Connections.

Connections explores an "Alternative View of Change" (the subtitle of the series) that rejects the conventional linear and teleological view of historical progress. Burke contends that one cannot consider the development of any particular piece of the modern world in isolation. Rather, the entire gestalt of the modern world is the result of a web of interconnected events, each one consisting of a person or group acting for reasons of their own motivations (e.g., profit, curiosity, religion) with no concept of the final, modern result to which the actions of either them or their contemporaries would lead. The interplay of the results of these isolated events is what drives history and innovation, and is also the main focus of the series and its sequels.

To demonstrate this view, Burke begins each episode with a particular event or innovation in the past (usually ancient or medieval times) and traces the path from that event through a series of seemingly unrelated connections to a fundamental and essential aspect of the modern world. For example, the episode "The Long Chain" traces the invention of plastics from the development of the fluyt, a type of Dutch cargo ship.

Burke also explores three corollaries to his initial thesis. The first is that, if history is driven by individuals who act only on what they know at the time, and not because of any idea as to where their actions will eventually lead, then predicting the future course of technological progress is merely conjecture. Therefore, if we are astonished by the connections Burke is able to weave among past events, then we will be equally surprised to what the events of today eventually will lead, especially events of which we were not even aware at the time.

The second and third corollaries are explored most in the introductory and concluding episodes, and they represent the downside of an interconnected history. If history progresses because of the synergistic interaction of past events and innovations, then as history does progress, the number of these events and innovations increases. This increase in possible connections causes the process of innovation to not only continue, but also to accelerate. Burke poses the question of what happens when this rate of innovation, or more importantly 'change' itself, becomes too much for the average person to handle, and what this means for individual power, liberty, and privacy.

Lastly, if the entire modern world is built from these interconnected innovations, all increasingly maintained and improved by specialists who required years of training to gain their expertise, what chance does the average citizen without this extensive training have in making an informed decision on practical technological issues, such as the building of nuclear power plants or the funding of controversial projects such as stem cell research? Furthermore, if the modern world is increasingly interconnected, what happens when one of those nodes collapses? Does the entire system follow suit?

Episodes

Connections (1978)

The original 1978 Connections 10-episode documentary television series was created, written, and presented by science historian James Burke and had a companion book (Connections, based on the series). The 1978 Connections companion book was published about the time the middle of the series was airing, so likely was written in parallel to the series and had a post-production editing release. The very popular book was re-released as a work in a 1995 edition, 1998, (relations to sections below is unknown.) and again in 2007 as both hardcover or softcover editions. Since the television series varied in content with each corresponding production run and release, it is likely the companion volumes (as is suggest by the plethora of ISBN codes) are also different works. This 1978 work's coverage deviates in some topics and details being both more in depth and a bit broader, from the lighter coverage of the episodes. It can be found in many libraries.

The 1978 connected book Connections uses a somewhat different organisation
and different titles for chapters than that of the listed television episodes:
 1. "The Trigger Effect"

 2. "Death in the Morning"

 3. "Distant Voices"

 4. "Faith in Numbers"

 5. "The Wheel of Fortune"

 6. "Fuel to the Flame"

 7. "The Long Chain"

 8. "Eat, Drink and Be Merry"

 9. "Lighting the Way"

10. "Inventing the Future"

i, ii "Further reading" and "Index"

  1. "The Trigger Effect" details the world's present dependence on complex technological networks through a detailed narrative of New York City and the power blackout of 1965. Agricultural technology is traced to its origins in ancient Egypt and the invention of the plough. The segment ends in Kuwait where, because of oil, society leapt from traditional patterns to advanced technology in a period of only about 30 years.
  2. "Death in the Morning" examines the standardisation of precious metal with the touchstone in the ancient world. This innovation stimulated trade from Greece to Persia, ultimately causing the construction of a huge commercial center and library at Alexandria which included Ptolemy's star tables. This wealth of astronomical knowledge aided navigators during the age of discovery 14 centuries later following the introduction of lateen sails and sternpost rudders. Mariners discovered that the compass's magnetised needle did not actually point directly north. Investigations into the nature of magnetism by Gilbert led to the discovery of electricity by way of the sulphur ball of von Guericke. Further interest in atmospheric electricity at the Ben Nevis weather station led to Wilson's cloud chamber which in turn allowed development of both Watson-Watt's radar and (by way of Rutherford's insights) nuclear weaponry.
  3. "Distant Voices" suggests that telecommunications exist because Normans had stirrups for horse riding which in turn led them to further advancements in warfare. Deep mine shafts flooded and scientists in search of a solution examined vacuums, air pressure, and other natural phenomena.
  4. "Faith in Numbers" examines the transition from the Middle Ages to the Renaissance from the perspective of how commercialism, climate change, and the Black Death influenced cultural development. He examines the impact of Cistercian waterpower on the Industrial Revolution, derived from Roman watermill technology such as that of the Barbegal aqueduct and mill. Also covered are the Gutenberg printing press, the Jacquard loom, and the Hollerith punch card tabulator that led to modern computer programming.
  5. "The Wheel of Fortune" traces astrological knowledge in ancient Greek manuscripts from Baghdad's founder, Caliph Al-Mansur, via the Muslim monastery/medical school at Gundeshapur, to the medieval Church's need for alarm clocks (the water horologium and the verge and foliot clock). The clock mainspring gave way to the pendulum clock, but the latter could not be used by mariners, thus the need for precision machining by way of Huntsman's improved steel (1797) and Maudslay's use (1800) of Ramsden's idea of using a screw to better measure (which he took from the turner's trade). This process made a better mainspring and was also used by the Royal Navy to make better blocks. Le Blanc mentioned this same basic idea to Thomas Jefferson, who transmitted this "American system of manufactures" – precision machine-tooling of musket parts for interchangeability – to New Englanders Eli Whitney, John Hall, and Simeon North. The American efficiency expert Frank Gilbreth and his psychologist wife later improved the whole new system of the modern production line.
  6. "Thunder in the Skies" implicates the Little Ice Age (circa 1300-1850 AD) in the invention of the chimney, as well as knitting, buttons, wainscoting, wall tapestries, wall plastering, glass windows (Hardwick Hall [1597] has "more glass than wall"), and the practice of privacy for sleeping and sex. The genealogy of the steam engine is then examined: Thomas Newcomen's engine for pumping water out of mines (1712); Abraham Darby's cheap iron from coke, James Watt's addition of a second condensing cylinder (for cooling) to the engine (1763); John Wilkinson's improving of cannon boring (for the French military) and cylinder making (for Watt; 1773–75). Wilkinson's brother-in-law, Joseph Priestley, investigated gases, leading Alessandro Volta to invent "bad air" (marsh gas) detectors and ignitors. Meanwhile, Edwin Drake discovered oil (in Pennsylvania), allowing Gottlieb Daimler and Wilhelm Maybach (in Bad Cannstatt) to replace town gas with gasoline as fuel for auto engines (1883). They also invented (in 1892) the carburetor (inspired by the medical atomizers, which also developed from Priestley's work) and a new ignition system inspired by Volta's "bad air" detection spark gun. Finally, piano-maker Wilhelm Kress unsuccessfully attempted (1901) to fly the first seaplane on an Austrian lake using the new gasoline engine.
  7. "The Long Chain" traces the invention of the fluyt freighter in Holland in the 16th century. Voyages were insured by Edward Lloyd (Lloyd's of London) if the ships' hulls were covered in pitch and tar (which came from the colonies until the American War of Independence in 1776). In Culross, Scotland, Archibald Cochrane (9th Earl of Dundonald) tried to distill coal vapour to get coal tar for ships' hulls, which led to the discovery of ammonia. The search for artificial quinine to treat malaria led to the development of artificial dyes, which Germany used to produce fertilizers to grow wheat and led to the advancement of chemistry which in turn led to DuPont's discovery of polymers such as nylon.
  8. "Eat, Drink and Be Merry..." begins with plastic, the plastic credit card, and the concept of credit, then leaps back to the time of the dukes of Burgundy, the first state to use credit. The dukes used credit for many luxuries, and to buy more armour for a stronger army. The Swiss opposed the army of Burgundy and invented a new military formation (with soldiers using pikes) called the pike square. The pike square, along with events following the French Revolution, set in motion the growth in the size of armies and in the use of ill-trained peasant soldiers. Feeding these large armies became a problem for Napoleon, which caused the innovation of bottled food. The bottled food was first put in champagne bottles then in tin cans. Canned food was used for armies and for navies. In one of the bottles, the canned food went bad, and people blamed the spoiled food on "bad air", also known as swamp air. Investigations around "bad air" and malaria led to the innovation of air conditioning and refrigeration. In 1892, Sir James Dewar invented a container that could keep liquids hot or cold (the thermos) which led three men – Tsiolkovsky, Robert Goddard, and Hermann Oberth – to construct a large thermal flask for either liquid hydrogen and oxygen or for solid fuel combustion for use in rocket propulsion, applying the thermal flask principle to keep rocket fuel cold and successfully using it for the V-2 rocket and the Saturn V rocket that put man on the moon.
  9. "Countdown" connects the invention of the movie projector to improvements in castle fortifications caused by the invention and use of the cannon. The use of the cannon caused changes in castle fortifications to eliminate a blind spot where cannon fire could not reach. This improvement in castle defence caused innovation in offensive cannon fire, which eventually required maps. Thus, a need arose to view and map locations (like a mountain top) from a long distance, which led to the invention of limelight light source, and later the incandescent light. Burke turns to the next ingredient for a movie projector, film. Film is made with celluloid (made with guncotton) which was first invented as a substitute for ivory in billiard balls. Next was the invention of the zoopraxiscope which was first used for a bet to see if a horse's hooves all left the ground at any point while galloping. The zoopraxiscope used frame-by-frame pictures and holes on the side to allow the machine to pull the film forward. Communication signals for railways using Morse's telegraph led to Edison discovering how to speak into a microphone creating bumps on a disc that could be played back—the record player. This final ingredient gave movies sound. In summary, Burke connects the invention of the movie projector to four major innovations in history: the incandescent light, the discovery of celluloid, the projector that uses frame-by-frame pictures on celluloid, and finally, recorded sound.
  10. "Yesterday, Tomorrow and You" recaps the theme that change causes more change. Burke ties together the modern inventions in which previous episodes had culminated: telecommunications, the computer, the jet engine, plastics, rockets, television, the production line, and the atomic bomb. All of these inventions come together in the B-52 nuclear bomber. Start with the plow, you get irrigation, pottery, craftsmen, civilisation and writing, mathematics, a calendar to predict floods, empires, and a modern world where change happens so rapidly you cannot keep up. What do you do? Stop the change? Throw away all technology and live like cavemen? Decide what change will be allowed by law? Or just accept that the world is changing faster than we can keep up with?

Connections2 (1994)

  1. "Revolutions" – What do all these things have in common—three grandfathers' lifetimes, two revolutions, 1750 Cornish steam engines for Cornwall's tin mines, water in mines, pumps, steam engines, Watt's copier, carbon paper, matches, phosphorus fertiliser, trains and gene-pool mixing, travelling salesmen, 24-hour production, educated women, the telephone, high-rise buildings, Damascus's swords, steel, diamond, carborundum, graphite, oscilloscope, television, Apollo space program, X-ray crystallography, DNA and gene therapy? You will learn these things in the first episode of Connections2, "Revolutions".
  2. "Sentimental Journeys" – What do these have in common – Freud, lifestyle crisis, electric shock therapy, hypnotherapy, magnetism, phrenology, penology, physiology, synthetic dyes, the Bunsen burner, absorption, Fraunhofer lines, astronomical telescopes, chromatic aberrations, and surveying? Follow James Burke on the trail of discovering the connections between these and others in "Sentimental Journeys".
  3. "Getting it Together" – James Burke explains the relationship between hot air balloons and laughing gas, and goes on to surgery, hydraulic-water gardens, hydraulic rams, tunnelling through the Alps, the Orient Express, nitroglycerin, heart attacks and headaches, aspirin, carbolic acid, disinfectants, Maybach-Gottlieb Daimler-Mercedes, carburetors, helicopters, typewriters, punch cards, and IBM.
  4. "Whodunit?" – This episode starts with a billiard ball and ends with a billiard ball. Along the way, Burke examines Georgius Agricola's De Re Metallica, how mining supported war, the role of money, the Spanish Armada, large ships, problems posed by a wood shortage, glass making, coal, plate glass, mirrors, the sextant, the discovery of granite, and seashells in the mountains, which enabled a new view of the age of the earth, and Darwin's theory of evolution, Francis Galton's Eugenics, and the forensic use of fingerprints.
  5. "Something for Nothing" – How do space shuttle landings start with the vacuum which was forbidden by the Church? Burke takes us on an adventure with barometers, weather forecasting, muddy and blacktop roads, rain runoff, sewage, a cholera epidemic, hygiene, plumbing, ceramics, vacuum pumps, compressed-air drills, tunnels in the Alps, train air brakes, hydroelectric power, the electric motor, Galvani's muscle-electricity connection, Volta's battery, and gyroscopes.
  6. "Echoes of the Past" – The past in this case starts with the tea in Dutch-ruled India, examines the Japanese tea ceremony, Zen Buddhism, porcelain, the architecture of Florence, Delftware, Wedgwood, Free Masons, secret codes, radio-telephones, cosmic background radiation and—finally – radio astronomy, which listens to "Echoes of the Past".
  7. "Photo Finish" – Another series of discoveries examined by Burke includes Eastman Kodak's Brownie, the disappearing elephant scare of 1867, billiard balls, celluloid as a substitute for ivory, false teeth that explode, gun cotton, double shot sound of a bullet, Mach's shock wave, aerodynamics, nuclear bombs, Albert Einstein's relativity, Einstein's selenium, movie talkies, the vacuum tube amplifier, radio, railroad's use of wood, coal tar, gas lights, creosote, rubber, the Zeppelin, the automobile, and finally how Adeline vulcanises tires.
  8. "Separate Ways" – Burke shows how to get from sugar to atomic weapons by two totally independent paths. The first involves African slaves, Abolitionist societies, Sampson Lloyd II, wire, suspension bridges, galvanised wire, settlement of the Wild West, barbed wire, canned corn, and cadmium. The second path involves sweet tea, rum, a double boiler, the steam engine, Matthew Boulton, English currency, the pantograph, electroplating, and cathode ray tubes.
  9. "High Times" – The connection between polyethylene and Big Ben is a few degrees of separation, so let us recount them: polyethylene, radar, soap, artificial dyes, color perception, tapestries, Far East goods, fake lacquer furniture, search for shorter route to Japan, Hudson in Greenland, the discovery of plentiful whales, printing the Bible, Mercator map, Martin Luther's protest, star tables, Earth as a flattened sphere, and George Graham's clock which of course leads to Big Ben.
  10. "Deja Vu" – James Burke provides evidence that history does repeat itself by examining the likes of black and white movies, conquistadors, Peruvian Incas, small pox, settlements that look like Spain's cities, the gold abundance ending up in Belgium, Antwerp, colony exploitation, the practice of burying treasure to avoid pirates, Port Royal's pirates, earthquakes, the College of William and Mary, military discipline, Alexander Humboldt's observation on the environment, Friedrich Ratzel's superstate Lebensraum, and Haushofer's world domination.
  11. "New Harmony" – A dream of utopia is followed from microchips to Singapore, from the transistor to its most important element, germanium, to Ming vases and cobalt fakes (which contribute to the blue in blue tiles used in special Islamic places), and mosaics in Byzantium, the donation of Constantine, Portuguese navigation by stars, the "discovery" of Brazil, Holland's tolerance, diamond merchants, optics, microscopes, beasts of science, Frankenstein's monster, and finally New Harmony.
  12. "Hot Pickle" – Burke starts out in a spice market in Istanbul where you can find hot pickle, recounts the taking of Constantinople by the Turks in 1453, follows the trail of pepper, tea, and opium and the exploitation of addicts, moves to the jungles of Java, then to zoos, the use of canaries as carbon monoxide detectors, how George Stephenson used his consolation prize to build a locomotive, which led to the battle between the Monitor and the Merrimack. Next we visit a sea island off the coast of South Carolina, where children of slaves are schooled. By the way, they picked cotton, which leads us to gaslight and air conditioning. Georgia Cayvan's glass dress leads to the neodymium glass laser, (which was used in the Gulf War). And the armed switch for firing a missile is also called a "hot pickle".
  13. "The Big Spin" is what California's lottery TV show is called. And lottery being a game of chance, from here Burke takes us through Alexander Fleming's chance discovery of penicillin, to Rudolf Virchow's observation that contaminated water is related to health, to Schliemann's search for the City of Troy, the theft of a discovered treasure, and to Virchow's criminology. From there we proceed to anthropology, the classification of life forms, Francis Bacon, the statistics of mortality, life expectancy, statistical math, Priestley's carbonated water, the soda fountain, petroleum oil, some French fossil hunters, seismology, and impossible-to-predict earthquakes.
  14. "Bright Ideas" – gin and tonic was invented to combat malaria in British colonies like Java, which leads us to Geneva, where cleanliness is an obsession. Here, tonic water was sealed with a disposable bottle cap, and razors became disposable, leading us to Huntsman's steel, invaluable for making clock springs. We take a little trip through lighthouses, the education of orphans, psycho-physics, the law of the just noticeable difference, which is the idea behind stellar magnitudes, which leads us to discovering the size of the universe.
  15. "Making Waves" – a permanent wave in ladies' hair is aided by curlers, and this leads us to explore borax, taking us to Switzerland, Johann Sutter's scam, and Sutter's Mill, and that means the discovery of gold leading to the 1848 California gold rush. Americans then cut into the English tea market with the aide of the Yankee Clipper, which played a big role in the gold rush. A fungus from America created the Irish potato famine, resulting in the importing of corn, but laws prevented the Yankee clippers from being used until it was too late to save Ireland. Finally, the laws were changed, leading to franking fraud, which was overcome by special printing of postage stamps, which gave us wallpaper, and a thickening agent, leading us to the Canal du Midi, the American war for independence, resettlement in Scotland, highlanders in Nova Scotia and—finally—the RMS Queen Elizabeth II.
  16. "Routes" – Jethro Tull, a sick English lawyer, recuperates sipping wine and contributes the hoe to help fix farming problems. Farm production is not going so well in France, either. François Quesnay (doctor of King Louis XV's mistress) suggests a solution based on his complete misunderstanding of English farming techniques. Laissez-faire was his erroneous idea. It also got the people to demand social laissez-faire. His inciting the public's rebellion against the monarchy led to France's invasion of Geneva. The French Revolution led to personal exploration of the senses. Berlin doctor Müller reasoned that each sense does a different job and the nervous system analyses what the senses are telling one. Helmholtz's pupil, Hertz, discovered that sound and electricity have a wave-like nature in common. Guglielmo Marconi takes this a step further by sending and receiving signals very long distances across the earth. The BBC realised that the radio waves were reflected by the ionosphere, and Hess was the first to suggest that the ionization was due to "Hess rays" later related to solar activity. But World War II started and adding machines were needed to aim artillery, so digital computing was invented. Thus was enabled the GPS which tells travelers their "Routes".
  17. "One Word" – The one word that changed everything was "filioque", but we must make a trip to Constantinople, visit the Renaissance, meet Aldus Manutius of Venice, explore abbreviations, learn about Italic print, which resulted in an overload of books, requiring the development of a cataloguing system, which was complicated for those seeking education, where Komensky was innovating with pictorial textbooks. And that brings us to church intolerance, James Watt and the Industrial Revolution, cerium, the asteroid Ceres, Gauss's mathematics, and cultural anthropology.
  18. "Sign Here" – Murphy's Law says you need insurance from Lloyd's of London, so pack your bags to study international law and protect yourself from piracy by calculating the probability. You better study Pascal's math for that, but you might find yourself jailed for free thinking. While you are in jail, study some sign language, or at least learn to speak better than Eliza Doolittle. Henry Higgins's waveform recordings lead you to the telephone, the invention of shorthand, the radiometer, gas flow, the Wright brothers' aeroplane, lubrication, ball bearings and a ballpoint pen so you can "Sign Here".
  19. "Better Than the Real Thing" starts in the 1890s with bicycles and bloomers and then takes a look at boots, zippers, sewing machines, and infinitesimal difference. Speaking of small, we look at microscopic germs, polarized light, sugar, coal, iron, microbubbles, the spectroscope, night vision, beriberi resulting from polished rice, chickens, war rationing, and finally, we arrive at vitamins in a pill.
  20. "Flexible Response" is a whimsical look at the myth of the English longbow, Robin Hood, sheep, the need to drain land with windmills, the effect of compound interest, decimal fractions (wrongly pointing to the USA not Russia as the first country with decimal currency, in fact USA did not exist at the time of Russian decimalisation in 1704), increased productivity, the Erie Canal, railroads, telegraphs, department stores, Quaker Oats, X-ray diagnostics, biofeedback, and servo control systems in a Panavia Tornado aircraft.

Connections3 (1997)

  1. "Feedback" – Electronic agents on the internet and wartime guns use feedback techniques discovered in the first place by Claude Bernard, whose vivisection experiments kick off animal rights movements called humane societies that really start out as lifeboat crews rescuing people from all the shipwrecks happening because of all the extra ships out there that are using Matthew Maury's data on wind and currents transmitted by the radio telegraph, invented by Samuel Morse, who is also a painter whose hero is Washington Allston, who spends time in Italy with Samuel Taylor Coleridge, who comes to Malta and spies for the governor Alexander Ball, who saved Admiral Horatio Nelson's skin so he can go head over heels for Emma Hamilton in Naples, resulting in an illegitimate son. Emma became notable in the Electrico-Magnetico Celestial Bed, where you go regain your fertility through electricity, and you can get more whisky thanks to Joseph Black, who determined the latent heat of vaporisation in steam. James Watt borrowed that information to make a better steam engine. Watt is linked to Roebuck who discovered chlorine bleach which eventually is used to make white paper. The paper is used for decorating walls by William Morris, who is a socialist with Annie Besant, who is a vegetarian just like the Seventh-day Adventists. And we end up with W.K. Kellogg's cornflakes.
  2. "What's in a Name?" – Remember the cornflakes from last episode? Because corncobs make adhesives to bond carborundum discovered by Edward Goodrich Acheson, otherwise known as silicon carbide, to grinding wheels used to grind lightbulbs, silicon carbide is also then used as protection against armour-piercing shells developed to hit tanks that start life as American tractors, which use diesel engines developed from funding from Krupp, who inspired Bismarck's welfare scheme based on Quetelet's statistics that inspired the Charles Babbage's difference engine, whose punch cards were used to rivet the SS Great Eastern, the monster ship that laid the transatlantic cable insulated with gutta-percha used to manufacture golf balls for factory managers in industrial Scotland, where James Watt had a run-in with Cavendish, whose protegee was James Macie, also called James Smithson, who caused all the row in the capitol building, so the money got used to set up a world-renowned institution named after James Macie's new family name, which was Smithson: The institution known as the Smithsonian.
  3. "Drop the Apple" – At the Smithsonian, we learn of electric crystals that help Pierre and Marie Curie discover what they call radium, and then Langevin uses the piezoelectric crystal to develop sonar that helps save Liberty ships (from German U-boats) put together with welding techniques using acetylene made with carbon arcs, also working the arc lights with clockwork regulators built by Foucault, whose pendulum helps him to take pictures of solar eclipses. Also thanks to ash from seaweed, interchangeable parts for clocks, the world of opera, and gurus, we get Einstein's theory of the gravity effect, which means Newton's universe is gone and you can drop the apple.
  4. "An Invisible Object" – Black holes in space, seen by the Hubble Telescope, brought into space with hydrazine fuel, which was a byproduct of fungicides for French vines, fuelled by quarantine conventions and money orders, American Express and Buffalo Bill, Vaudeville and French battles, Joan of Arc and the Inquisition, Jews welcomed by Turks, who lost to Maltese knights with surgeons trained on pictures by Titian, in Augsburg, where goldsmiths made French money to pay for tobacco. That triggered logarithms and slide rules made by clock makers, who also made pressure cookers that sterilised French beer kept cool by refrigerators that were also used to freeze meat and chill down paraffin wax for making objects invisible.
  5. "Life is No Picnic" – Instant coffee gets off the ground in World War II and Jeeps lead to nylons and stocking machines smashed by Luddites, who were defended by Lord Byron, who meets John Galt in Turkey, avoiding the same blockade that inspires the "Star-Spangled Banner", which was really an English song all about a Greek poet discovered by a publisher whose son-in-law is pals with Joseph Justus Scaliger of chronology fame, whose military boss, Maurice, inspires Gustavus of Sweden, father of the runaway Christina, whose teacher René Descartes' mechanical universe inspires the book about brains by Willis, which is illustrated by the architect of St. Paul's, Christopher Wren, who dabbles in investments like John Law's Louisiana scam that ruins France, and Pierre Beaumarchais, and later the French finance minister Jacques Necker, whose daughter is the opinionated de Stael, whose romantic pals get Thomas Henry Huxley looking into jellyfish so he can defend Charles Darwin's theory of evolution. This demonstrates that "Life is No Picnic".
  6. "Elementary Stuff" – Alfred Russel Wallace, who studied beetles, Oliver Lodge and telegraphy, a radio designed by Reginald Fessenden, which was used by banana growers, studied by Augustin Pyramus de Candolle, who got the Swiss to use stamps on postcards with cartoons of Gothic houses of parliament, which in turn had been inspired by Johann Gottfried Herder's Romantic movement, inspired by fake Scottish poems. The exiled Scots escaped to North Carolina, producing turpentine, which helped make Chinese lacquer on tinplate, which is for what Jean-Baptiste Colbert had hoped. French navy decorator Pierre Paul Puget, who paints pictures of locations where barometers are the subject of investigation. The weather experimenter, whose brother's writing turns on Swift, whose pal Berkeley has visual theories that Young confirms while decoding ancient Egyptian from examples sketched by pencils invented by French balloonists. The American balloons are used for spying by Allan Pinkerton and his intrepid agent James McParland, who becomes famous in England because of Conan Doyle.
  7. "A Special Place" – Professor Sir Alec Jeffries of Leicester University in England develops DNA profiling and schlieren photography used by Theodore von Karman to study aerodynamics and Anthony Fokker's airborne machine guns and the Red Baron and geographer Ferdinand von Richthofen and Johann Gottfried Herder's romantic ideas that start in Italy and paintings of actors and lighthouses and the War of Jenkins' Ear and Spanish gold and Alexander Monro and William Cheselden's skeleton drawings and astronomical poetry by friends of fishing aficionados who write books and Charles Cotton and sceptical wine-drinkers called Michel Eyquem, and Edward Jenner's cure for smallpox and J. J. Audubon and American bird painters and devious Russian real estate deals, and as a result in 1872, America gets a special place, the first national park, Yellowstone.
  8. "Fire from the Sky" – Due to continental drift and Alfred Wegener's passion for mirages, magic images from the sister of King Arthur, whose chivalry supposedly triggers the medieval courtly love answers to adultery, which were in turn inspired by the free love ideas of the mystical Cathars, who lived next to the mystical cabalists who were fascinated with mystic numbers that spark Pico of Mirandola's interest in Hebrew, which then brings trouble for Johann Reuchlin, not helped by his nephew, the Protestant Melanchthon, who had a feud with Osiander, who rewrites the work of Copernicus. Osiander's Italian pal, Dr. Cardano, who cures the asthmatic Archbishop John Hamilton, executed for helping Mary, Queen of Scots, whose lover, the explosive-bearing Earl of Bothwell, ends up in Scandinavia with a friend of astronomer Tycho Brahe, whose assistant, Willem Blaeu, makes maps updated in the first true atlas by the Englishman Dudley, working in Italy for Bernardo Buontalenti, who got opera started, which was a rave success, especially with the French Cardinal Mazarin, whose library inspired the secretary of the English navy, which eventually buys French semaphore, after which Gamble gets the patent for canned food that feeds explorers like Hooker, who transplanted rubber trees to Sri Lanka. As a result of all that, we have rubber to mix with gasoline to make napalm, which is "Fire from the Sky".
  9. "Hit the Water" – Thanks to napalm, made with palm oil, also used for margarine, stiffened with a process using kieselguhr that comes from plankton living in currents studied by Ballot before observing the Doppler effect that caused Fizeau to measure the speed of light. Fizeau's father-in-law's friend, Prosper Mérimée, who wrote "Carmen"... his friend, Anthony Panizzi, who works at the British Museum, opened to house the collection of Hans Sloane, who treats Lady Montague's smallpox before she sees Turkish tulips, first drawn by Gesner, whose godfather eats sausages and cancels the military contract with France, which was the first to develop military music and choreography, used in a London show by John Gay, whose friend Arbuthnot does statistics that impress the Dutch mathematician who knows Voltaire, who hears from the worm-slicing Lazzaro Spallanzani, who stars in the story by Judge Hoffman, who tries German nationalists who start gymnastics, adopted by the YMCA and the man who started the Red Cross, who need a way to figure out blood types, surgical stitching and the perfusion pump invented by Charles Lindbergh, whose father-in-law's disarmament treaty leads to Graf Spee, Altmark, and the German invasion of Norway and the Allied commandos whose mission was to "Hit the Water".
  10. "In Touch" – Starting from an attempt for cheaper fusion power using superconductivity, which was discovered by Onnes, with liquid gas provided by Louis-Paul Cailletet, who carried out experiments on a tower built by Gustave Eiffel, who also built the Statue of Liberty with its famous poem by the Jewish activist Emma Lazarus, helped by Oliphant, whose boss Elgin was the son of the man who stole the Elgin Marbles and sold them with the help of royal painter Thomas Lawrence, whose colleague John Hunter had an assistant whose wife's lodger was Benjamin Franklin, who charted the Gulf Stream with a thermometer Fahrenheit borrowed from Ole Rømer, whose friend Picard surveyed Versailles and provided the water for the fountains and the royal gardens and all the trees that inspired Duhamel to write the book on gardening that was read by the architect William Chambers, who hired the Scottish stonemason Thomas Telford, whose idea for London Bridge was turned down by Thomas Young, whose light waves travel in ether, as do Hertz's electricity waves, with which Helmholtz prods a frog to disprove the vitalists, whose leader, Klages, analyses handwriting so individual post codes have to be capital letters to get your mail to a jungle village to keep you "In Touch".

Related works

All three Connections documentaries have been released in their entirety as DVD box sets in the US. The ten episodes of series one were released in Europe (Region 2) on 6 February 2017.

Burke also wrote a series of Connections articles in Scientific American, and published a book of the same name (1995, ISBN 0-316-11672-6), all built on the same theme of exploring the history of science and ideas, going back and forth through time explaining things on the way and, generally, coming back to the starting point.

Burke produced another documentary series called The Day the Universe Changed in 1985, which explored man's concept of how the universe worked in a manner similar to the original Connections.

Art of the Problem's channel on YouTube is a video series launched in 2011 on Kickstarter.com that was inspired by James Burke's Connections. However, it follows concepts rather than inventions through time.

Richard Hammond's Engineering Connections, shown on BBC2, follows a similar format.

In video games

Connections, a Myst-style computer game with James Burke and others providing video footage and voice acting, was released in 1995. It was a runner-up for Computer Gaming World's award for the best "Classics/Puzzles" game of 1995, which ultimately went to You Don't Know Jack. The editors wrote of Connections, "That you enjoy yourself so much you hardly realize that you're learning is a tribute to the design."

A clip from the episode "Yesterday, Tomorrow and You" appears in the 2016 video game The Witness.

Entropy (information theory)

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Entropy_(information_theory) In info...