How Visionaries Planned to Reach the Moon 500 Years Ago

Map of the moon engraved by the astronomer Johannes Hevelius, 1645. (Credit: Wikimedia Commons)

People have been dreaming about space travel for hundreds of years, long before the arrival of the spectacular technologies behind space exploration today – mighty engines roaring fire and thunder, shiny metal shapes gliding in the vastness of the universe.

We’ve only traveled into space in the last century, but humanity’s desire to reach the moon is far from recent. In the second century AD, Lucian’s True History, a parody of travel tales, already pictured a group of adventure seekers lifted to the moon. A whirlwind delivered them into the turbulence of lunar politics – a colonial war.

Galileo’s sketches of the moon, 1610. (Credit: Wikimedia Commons)

And much earlier than any beep of a satellite, these dreams of moon travel were given real, serious thought. The first technical reckoning of how to travel to the moon can be found in the 17th century.

This was inspired by astronomic discoveries. For a long time, it was thought that the world was encapsulated with ethereal or crystal spheres in which nested celestial bodies. But then Galileo managed to compile enough observational data to support Copernicus’s theory of heliocentrism. This meant that the moon began, for the first time, to be considered an opaque, Earth-like object.

Galileo’s Starry Messenger, published in 1610, even featured some sketches of the eerie moon relief. In 1620, Ben Jonson’s masque News from the New World Discovered in the Moon was performed before King James I, entertaining the court with satire but also elucidating the newest astronomical viewpoints.

It was in the context of this moon fervor that John Wilkins, a 24-year-old graduate of Oxford University, published in 1638 the first edition of his book The Discovery of a World in the Moone. The book popularized Galileo’s description of the moon as a solid and habitable world.

Frontispiece from The Man in the Moone, Francis Godwin (1562-1633). (Credit: Houghton Library, Harvard University)

A World in the Moone

When preparing the much edited and lengthened second edition of the Discovery, eventually published in 1640, Wilkins was impressed by Francis Godwin’s story The Man in the Moone, also appearing in 1638, in which a character named Domingo Gonzales is transported to the moon in a chariot towed by a flock of geese.

After reading this piece of 17th century science fiction, Wilkins suggested that not only must occasional travel to the moon be possible, but also regular visits and habitation. The moon was the ultimate traveling destination of his time, and moon travel a technological achievement pushing the historical and providential limits for mankind.

Appreciating various fictional scenarios, Wilkins aimed to “raise up some spirits eminent for new attempts and strange inventions” and to contemplate practical ways of “bringing the moon closer” by traveling through space. In the pragmatic tone of an artisan, the second edition of the Discovery ruminates on the technicalities: “

I do seriously, and upon good grounds, affirm it possible to make a flying chariot.

Wilkins describes and designs various flying apparatuses driven by manpower, or towed by majestic exotic birds, and even imagines an engine to be contrived on the same principles as the legendary mechanical doves and eagles.

He was also alerted to the challenges of moon travel, and even expressed a slight vexation that divine providence did not endow the human body with any natural means of flying. Enumerating the impediments to flight from the Earth, he humorously warns that there won’t be any “castles in the air to receive poor pilgrims, or errant knights”. He discusses the nature of gravity, how difficult it would be to bring food and water to the moon, and to survive the cold and thin lunar air.

In Perspective

But Wilkins also states with perfect assurance that the ways of conveyance through space would eventually be discovered. He predicts that “as soon as the art of flying is found out”, humans “will make one of the first colonies, that shall transplant into that other world”, all glorifying the future of air travel.

The Discovery ends with Wilkins prophesying that posterity will likely be surprised at the ignorance of his age. But this isn’t the feeling kindled in his modern readership, although many of his conclusions about the moon are indeed mistaken. Even though the answers were premature, our contemporary investigations of the moon still follow the same trajectory of questions as did his Space Odyssey 1640: the presence of water, the possibilities for regular travel and colonization. Young John Wilkins meant to provoke the readers’ curiosity concerning “secret truths” about nature, and fulfilled this purpose for centuries ahead.

Space explorations tend to be viewed primarily as manifestations of spectacular and, alas, costly technologies. Is this not the reason why the moon flight program has been jammed for years? In the 17th century, motivation to design the means of travel to the moon was similar to our contemporary stimuli for space exploration as they were formulated at the dawn of the Apollo spaceflight program. People dreamed of pushing the boundaries of humankind and of bringing to life a great deal of useful knowledge.

The ConversationAfter all, it is not only machinery that drives human beings into space, but humanity’s curiosity and imagination prompting the desire to reach beyond the possible.

 

This article was originally published on The Conversation. Read the original article.

CATEGORIZED UNDER: Space & Physics, Top Posts
MORE ABOUT: space exploration
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  • Christian Domenech

    COOL

  • http://www.mazepath.com/uncleal/qz4.htm Uncle Al

    humanity’s curiosity and imagination prompting the desire to reach beyond the possible” 1960’s space technology was primitive. Landing on the moon created powerful efficient technologies that revised civilization, like scandium-hardened aluminum baseball bats.

    Lunar laser ranging (Apollo Observatory) measures the moon’s orbit to a few millimeters. It places one part in 10^(15) relative constraints upon physical theory. Moon landings placed corner cube retroreflector arrays. There is no doubt we landed on the moon. Lunar coordinates.

    Apollo 11 0.67337°N 23.47293°E
    Apollo 14 3.6453° S 17.471361° W
    Apollo 15 26.1°N 3.6°E
    Lunokhod 1/Luna 17 38.17° N, 325.06° W
    Lunokhod 2/Luna 21 25.85° N, 30.45° E

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