APOLLO 8 REALIZED IN 1968 THE 2000-YEAR-OLD DREAM OF A ROMAN PHILOSOPHER







Tom McLeish, University of York

Half a century of Christmases ago, the NASA space mission Apollo 8 became the first manned craft to leave low Earth orbit, atop the unprecedentedly powerful Saturn V rocket, and head out to circumnavigate another celestial body, making 11 orbits of the moon before its return. The mission is often cast in a supporting role – a sort of warm up for the first moon landing. Yet for me, the voyage of Borman, Lovell and Anders six months before Neil Armstrong’s “small step for a man” will always be the great leap for humankind.







Apollo 8 is the space mission for the humanities, if ever there was one: this was the moment that humanity realised a dream conceived in our cultural imagination over two millennia ago. And like that first imagined journey into space, Apollo 8 also changed our moral perspective on the world forever.

In the first century BC, Roman statesman and philosopher Marcus Tullius Cicero penned a fictional dream attributed to the Roman general Scipio Aemilianus. The soldier is taken up into the sphere of distant stars to gaze back towards the Earth from the furthest reaches of the cosmos:

And as I surveyed them from this point, all the other heavenly bodies appeared to be glorious and wonderful — now the stars were such as we have never seen from this earth; and such was the magnitude of them all as we have never dreamed; and the least of them all was that planet, which farthest from the heavenly sphere and nearest to our earth, was shining with borrowed light, but the spheres of the stars easily surpassed the earth in magnitude — already the earth itself appeared to me so small, that it grieved me to think of our empire, with which we cover but a point, as it were, of its surface.







Earth-centric







Even for those of us who are familiar with the ancient and medieval Earth-centred cosmology, with its concentric celestial spheres of sun, moon, planets and finally the stars wheeling around us in splendid eternal rotation, this comes as a shock. For the diagrams that illustrate pre-modern accounts of cosmology invariably show the Earth occupying a fair fraction of the entire universe.

Cicero’s text informs us right away that these illustrations are merely schematic, bearing as much relation to the actual imagined scale of the universe as today’s London Tube map does to the real geography of its tunnels. And his Dream of Scipio was by no means an arcane musing lost to history – becoming a major part of the canon for succeeding centuries. The fourth century Roman provincial scholar Macrobius built one of the great and compendious “commentaries” of late antiquity around it, ensuring its place in learning throughout the first millennium AD.







Cicero, and Macrobius after him, make two intrinsically-linked deductions. Today we would say that the first belongs to science, the second to the humanities, but, for ancient writers, knowledge was not so artificially fragmented. In Cicero’s text, Scipio first observes that the Earth recedes from this distance to a small sphere hardly distinguishable from a point. Second, he reflects that what we please to call great power is, on the scale of the cosmos, insignificant. Scipio’s companion remarks:









I see, that you are even now regarding the abode and habitation of mankind. And if this appears to you as insignificant as it really is, you will always look up to these celestial things and you won’t worry about those of men. For what renown among men, or what glory worth the seeking, can you acquire?

The vision of the Earth, hanging small and lowly in the vastness of space, generated an inversion of values for Cicero; a human humility. This also occurred in the case of the three astronauts of Apollo 8.

A change in perspective

There is a vast difference between lunar and Earth orbit – the destination of all earlier space missions. “Space” is not far away. The international space station orbits, as most manned missions, a mere 250 miles above our heads. We could drive that distance in half a day. The Earth fills half the sky from there, as it does for us on the ground.









But the moon is 250,000 miles distant. And so Apollo 8, in one firing of the S4B third stage engine to leave Earth orbit, increased the distance from Earth attained by a human being by not one order of magnitude, but three. From the moon, the Earth is a small glistening coin of blue, white and brown in the distant black sky.

So it was that, as their spacecraft emerged from the far side of its satellite, and they saw the Earth slowly rise over the bleak and barren horizon, the crew grabbed all cameras to hand and shot the now iconic “Earthrise” pictures that are arguably the great cultural legacy of the Apollo program. Intoning the first verses from the Book of Genesis as their Christmas message to Earth – “… and the Earth was without form, and void, and darkness was upon the face of the deep…” – was their way of sharing the new questions that this perspective urges. As Lovell put it in an interview this year:







But suddenly, when you get out there and see the Earth as it really is, and when you realise that the Earth is only one of nine planets and it’s a mere speck in the Milky Way galaxy, and it’s lost to oblivion in the universe — I mean, we’re a nothing as far as the universe goes, or even our galaxy. So, you have to say, ‘Gee, how did I get here? Why am I here?’

The 20th century realisation of Scipio’s first century BC vision also energised the early stirrings of the environmental movement. When we have seen the fragility and unique compactness of our home in the universe, we know that we have one duty of care, and just one chance.









Space is the destiny of our imagination, and always has been, but Earth is our precious dwelling place. Cicero’s Dream, as well as its realisation in 1968, remind the world, fresh from the Poland climate talks, that what we do with our dreams today will affect generations to come.







Tom McLeish, Professor of Natural Philosophy in the Department of Physics, University of York

This article is republished from The Conversation under a Creative Commons license. Read the original article.















