 |
The Condensed Edition of
Nicolaus Copernicus'
The Revolutions
of the Celestial Orbs
... in 4,445 words
"Therefore the earth is not flat." |
INTRODUCTION to COPERNICUS' REVOLUTIONS
Copernicus was born in Torun on the Vistula in Poland.
This polymath studied, not only astronomy, but
mathematics, classics, law, and medicine at Krakow and
in Italy, and found a job with his uncle, the bishop of
Varmia. His idea that the earth is not at the centre of
the universe was not, as he himself is at pains to point
out, a new one. But the strength of his exposition of it
came as an enormous psychological shock to European
culture. The earth and its solitary moon had been
demoted from centre of the Universe to the status of a
mere, very ordinary, planet. We humans, and our little
home, were no longer the centre of everything. The
religious guardians of tradition ought to have been
shocked, as they were later with Galileo. But, at least
initially, they supported this new and bold idea. Partly
this was because Nicolaus' literary agent, himself a
divine, added a very unauthorised introduction
explaining that the new theory was merely to be taken as
a convenient fiction to simplify calculations, not as
the truth. Furthermore, Copernicus was slightly wrong-
he assumed that the planets (which actually move in
elipses) must move in circles, for no other reason than
circles are the very nicest shape- so astronomers
couldn't verify his ideas by actual observation. Perhaps
most importantly, he had already been denounced by the
Lutheran church, so it behoved the more powerful Roman
church, its bitter rival, to give succor to anyone who
had enraged their enemies. In due course, Tycho Brahe's
precise observations and Johannes Kepler's better
mathematics showed that the Copernican model was the
right one. We are small and unimportant after
all.
The Revolutions was placed on the Roman
Church's index of forbidden books in 1616, finally being
removed more than three hundred years later, in 1835.
THE VERY SQUASHED VERSION
Some will say that the ideas I put here are mad, so I
dedicate this work to you, Pope Paul III, so that, as a
lover of learning, you may protect it from enemies.
The universe is clearly a sphere, as that is the most
perfect shape. The earth is also a sphere, for we can
see its shape shadowed in eclipses or infer it from the
way a ship falls below the horizon. Until now it as been
accepted that the earth is the centre of the universe.
But why, then, do the planets seem to follow such odd
paths through the sky, when it is obvious that their
motion must be the perfection of a circle? We can tell
that the universe is very large, because stars seem
always to be at the same angle to the earth, no matter
where viewed from. The ancients though the earth must be
the centre because all heavy things fall towards
centres, an earth is most heavy, and that the earth
cannot be in motion for otherwise clouds would drift
away as it spun. But if the air of the earth moves too,
then clouds will hold their places. I follow ancient
Martianus Capella, and think that the beautiful sun is
at the centre, followed by the planets on their spheres,
in order of the time they take to complete their circuit
round it- Mercury, Venus, then the earth with its moon,
Mars, Jupiter, saturn and then the fixed sphere of the
distant stars. I declare also that the earth varies in
the angle of its axis as it goes round the sun, which
accounts for the differences of the seasons. There is no
clearer way of understanding the apparent motions of the
heavenly orbs.
THIS SQUASHED VERSION
This squashed version has largely been based on the
Edward Rosen translation of 1978. It should be
understood that this is only Book One, the later volumes
provided the detailed astronomy to support the basic
thesis given here. Not only the descriptive text has
been condensed, but the geometric explanations also. In
particular, the explanation associated with diagram 2
(they were not numbered in the original) is somewhat
different, while that associated with diagram 4 is
drastically truncated. Diagram 3 is an actual copy of
the illustration in the first printed edition. Diagrams
1 and 4 are re-drawn versions of Copernicus' manuscript
originals, while diagram 2 is an addition of the editor.
GLOSSARY
Apogee: The point in the orbit of an
object farthest from the point of reference. eg: the
location of a planet at its greatest distance from the
earth.
Perigee: The opposite of apogee
Ptolemy: Egyptian cartographer whose
Almagest explained the curious motions of the
stars and planets by assuming that the earth was at the
centre of the universe.
Ecliptic: The path of the earth's
yearly cycle.
Axis: The imaginary straight line about
which a body revolves.
Hermes 'The Thrice Greatest'
(Trismegistus): Semi-mythical Egyptian sage, c1300BC
The
Revolutions of the Celestial Orbs
by Nicolaus Copernicus, 1543
Squashed version edited by
Glyn
Hughes
© 2000
Diligent reader, in this new work you
have the motions of the fixed stars and
planets, reconstituted from ancient as
well as recent observations, and
embellished by new and marvelous
hypotheses. Therefore buy, read, and
enjoy this work.
TO
HIS HOLINESS, POPE PAUL III,
From NICOLAUS COPERNICUS
A PREFACE TO HIS BOOKS ON THE REVOLUTIONS
Holy Father,
some who discover that I here ascribe certain motions to
the terrestrial globe will shout that I must be
immediately repudiated. But a philosopher's ideas are
not subject to the judgement of ordinary persons,
because he endeavours to seek the truth in all things,
to the extent permitted to human reason by God.
Therefore I long debated whether to publish this volume,
or, like the Pythagoreans, to reserve philosophy's
secrets for kinsmen and friends.
But the learned Cardinal Schönberg, and others, did
repeatedly encouraged me to publish, this work being yet
buried among my papers the fourth period of nine years.
I despaired that the movements of the universe, created
by the most systematic Artisan of all, were not better
understood by the philosophers, who otherwise examined
so precisely the most insignificant trifles. I found in
Cicero that Hicetas supposed the earth to move, as did
Philolaus and Ecphantusthe the Pythagoreans, and
Heraclides.
Yet many will still think the idea absurd, so I have
dedicated my studies to Your Holiness. For even in my
very remote country you are considered the highest
authority by virtue of your lofty office and your love
for literature and astronomy. Hence you can easily
suppress attacks although, as the proverb has it, there
is no remedy for a backbite.
Perhaps there will be ignorant babblers, who, twisting
some passage of Scripture to their purpose, will find
fault here. I disregard them. Astronomy is for
astronomers, and most useful in correcting the
ecclesiastical calendar. All else I leave to the
judgement of Your Holiness and other learned
astronomers. Lest I now seem to promise more than I can
fulfil, I turn to the work itself.
Book One
INTRODUCTION
Among the many pursuits which invigorate men's minds,
the strongest affection and zeal should, I think, be
towards the most beautiful objects, and what is more
beautiful than the heavens? Its very Latin names, caelum
and mundus, denote sculpture and ornament. On account of
heaven's transcendent perfection philosophers have
called it a visible god. Such good arts draw men away
from vices, as the Psalmist says. Even Plato shows the
utility of astronomy, in dividing time into days and
months and years, to keep the state alert to festivals
and sacrifices.
However, this divine science's principles and
assumptions, called "hypotheses" by the Greeks, have
been a source of disagreement. To be sure, Claudius
Ptolemy of Alexandria, has come close to perfecting our
understanding, yet even the length of the year itself is
not agreed.
But these difficulties are no excuse for indolence, so,
by the grace of God, without whom we can accomplish
nothing, I shall attempt to enquire into these matters
differently from those who first opened the road to my
investigations.
Chapter 1
THE UNIVERSE IS SPHERICAL
First of all, we must note that the universe is
spherical. The reason is either that, of all forms, the
sphere is the most perfect, needing no joint and being a
complete whole; or that it is the most capacious of
figures, best suited to enclose and retain all things.
The sun, moon, planets and stars, are seen to be of this
shape; and wholes strive to become spheres, as is
apparent in drops of water. Hence no one will question
the attribution of this form to the divine bodies.
Chapter 2
THE EARTH TOO IS SPHERICAL
The earth also is perfectly spherical, yet it is not
immediately recognised as such. However, it is clear
from the following considerations. A traveler going from
any place toward the north, finds that pole of the daily
rotation of the stars gradually climbs higher, while the
opposite pole drops down. More stars in the north are
seen not to set, while in the south certain stars are no
longer seen to rise. Moreover, the elevations of the
poles have the same ratio everywhere to the portions of
the earth that have been traversed. This can happen on
no figure other than a sphere. Furthermore, evening
eclipses of the sun and moon are not seen by easterners,
nor morning eclipses by westerners, while those
occurring in between are seen later by easterners but
earlier by westerners.
The waters also press down into the surface of the
sphere, as sailors know, since land which is not seen
from a ship is visible from the top of its mast.
Likewise, if a light is attached to the top of the mast,
as the ship draws away from land, those who remain
ashore see the light drop down gradually until it
finally disappears, as though setting.
Chapter 3
HOW EARTH FORMS A SINGLE SPHERE WITH WATER
It is clear that water, like earth, falls always
downwards towards the centre, because of their
heaviness. So it is clear that the earth does not have
the form of a great uprising curve, as some have said,
for if it were there could be no seas inland, nor any
islands to be encountered on distant voyages. But it is
well known that almost in the middle of the inhabited
lands lie the Mediterranean and the Red Seas. Further,
Ptolemy did not know of Cathay, a vast territory. We
must add the many islands lately discovered, notably
America, named after the ship's captain who found it,
which may be a second group of inhabited countries.
From all these facts, finally, I think it is clear that
land and water together press towards a single centre of
gravity, and that there is little water in comparison
with earth, even though more water perhaps appears on
the surface.
The earth must in fact have the shape we see shadowed on
the moon in eclipses, namely a perfect circle. Therefore
the earth is not flat, as Empedocles and Anaximenes
thought; nor drum-shaped, as Leucippus; nor bowl-shaped,
as Heraclitus; nor hollow, as Democritus; nor
cylindrical, as Ansaximander; nor does it extend
infinitely downward, as Xenophanes taught; but it is
perfectly round.
Chapter 4
THE MOTION OF THE HEAVENLY BODIES IS UNIFORM, ETERNAL,
AND CIRCULAR OR COMPOUNDED OF CIRCULAR MOTIONS
I shall now recall that the motion of heavenly bodies is
circular, since the motion appropriate to a sphere is
rotation in a circle, which is the simplest shape,
wherein neither beginning nor end can be found.
The most conspicuous of the earth's motions is the daily
rotation, which the Greeks call nuchthemeron, in which
the skies are perceived as whirling from east to west.
But we see the motions of the sun, moon, and the five
planets as advancing in the opposite direction, that is,
from west to east.
Yet these motions differ in many ways. In the first
place, they do not swing around the same poles as the
first motion, but run obliquely through the zodiac.
Secondly, the sun and moon are observed to be sometimes
slow, at other times faster in their course. Moreover,
the other five planets at some times hold stationary
then go backwards. Also, they wander in various ways,
straying sometimes to the south and sometimes to the
north; which is why they are called "planets"
[wanderers]. Furthermore, they are at times nearer to
the earth, when they are said to be in perigee; at other
times they are farther away, when they are said to be in
apogee.
We must acknowledge, however, that all these motions are
circular, for they continually repeat themselves, and
only a circle can bring back the past. To hold otherwise
would be to infer some inconsistency or some imposition
from without, which is impossible among bodies
constituted so perfectly.
Yet it is clear that some of the motions of the
celestial orbs seem, to us, not to be uniform. The cause
may be either that their circles have poles different
from the earth's or that the earth is not at the centre
of the circles on which they revolve. Hence I deem it
most necessary that we should carefully scrutinise the
relation of the earth to the heavens.
Chapter 5
DOES CIRCULAR MOTION SUIT THE EARTH? WHAT IS ITS
POSITION?
Authorities agree that the earth is at rest in the
middle of the universe, and that any contrary view is
inconceivable or entirely silly. Nevertheless, if we
examine the matter more carefully, we shall see that
this is by no means to be disregarded.
Every observed change of place is caused by a motion of
either the observed object or of the observer or, of
course, by an unequal displacement of each. It is the
earth from which the celestial dance is beheld,
therefore, if motion is ascribed to the earth, all
things outside will appear as though they were moving
past it. If you will allow that the heavens have no part
in this motion but that the earth rotates daily from
west to east, you will find that this accounts for the
apparent rising and setting of the sun, moon, stars and
planets.
An important question follows concerning the earth's
position. Heretofore there has been virtually unanimous
acceptance that the middle of the universe is the earth.
But the fact that the same planets are observed nearer
to the earth and farther away necessarily proves that
the centre of the earth is not the centre of their
circles.
It will occasion no surprise if, in addition to the
daily rotation, some other motion is assigned to the
earth. That the earth travels with several motions, and
that it is one of the heavenly bodies are said to have
been the opinions of Philolaus the Pythagorean. He was
no ordinary astronomer, inasmuch as Plato did not delay
going to Italy for the sake of visiting him, as Plato's
biographers report.
Chapter 6
OF THE IMMENSITY OF THE HEAVENS COMPARED TO THE SIZE OF
THE EARTH
The massive bulk of the earth does indeed shrink to
insignificance in comparison with the size of the
heavens. As can be demonstrated.
In the first
diagram, let the circle ABCD be the circle of the
horizon, and let E be the position from which we observe
the motion of the stars. At a certain season the first
point of the Crab will be seen to rise at C as the Goat
is perceived to be setting at A. Yet at another season,
as the Goat rises at B while the Crab is seen setting at
D. From this it is very clear that the fixed stars
appear to have the motion of a great circle.
Yet, to look at the second diagram, if two observers at
different parts of the earth, F and G, were to draw a
line towards a distant star, S, it is clear that each
should measure a different angle between that line and
the earth about them. It is also clear that if the star
be farther away, the difference between the angles of F
and G would be less, and that if the star was at an
extraordinarily great distance then no difference would
be observed. Such is the case. They become like parallel
lines, because their terminus is enormously remote. This
reasoning certainly makes it quite clear that the
heavens are immense by comparison with the earth.
But it does not follow that the earth must be at rest in
the middle of the universe. Indeed, it is less likely
that the whole vast universe should rotate in just
twenty-four hours, than the small earth do so. The
argument that what is nearest the centre moves the
least, proves nothing about the position of the earth.
If the heavens are a single sphere, revolving around the
poles, then those parts nearest the pole will move most
slowly, as we see happens when we observe the little
bear. But if the earth had a motion with the whole
celestial sphere, though in a smaller circle, then the
daily risings and settings of the sun and other
celestial bodies would not be seen.
But it is quite known that things travelling in a small
orbit move faster than those in a larger one. Thus,
saturn revolves in thirty years and the moon,
undoubtedly nearest the earth, completes its course in
one month, while the earth revolves in one day. But from
this, we can know nothing of the earth's position,
except to see that the heavens are of almost unlimited
size compared to the earth.
Chapter 7
WHY THE ANCIENTS THOUGHT THAT THE EARTH REMAINED AT REST
IN THE MIDDLE OF THE UNIVERSE AS ITS CENTER
The ancient philosophers argued that all things that
have weight are, by nature, borne towards the very
centre of the heaviest of them, and earth is the
heaviest element of all, drawing things towards itself.
It seems to follow that all heavy things come to rest at
the middle. Thus, then, will the earth be at rest in the
middle.
Further, according to Aristotle, the perfect motion of a
single simple body is simple- either straight, being
upward or downward, or circular. To be carried downward,
that is, to seek the middle, is a property only of earth
and water, which are considered heavy; on the other
hand, air and fire, which are endowed with lightness,
move upward and away from the middle. To these four
elements it seems reasonable to assign straight motion,
but to the heavenly bodies, circular motion around the
middle. This is what Aristotle says.
Ptolemy of Alexandria remarks that, if the earth were to
move in a daily rotation, its motion would have to be so
exceedingly violent and fast that all things would be
thrown off from its surface. The earth would long ago
have burst asunder, he says, and dropped out of the
skies (a quite preposterous notion). Objects would not
be seen to fall perpendicularly, as their appointed
place would meantime have been moved on. Moreover,
clouds and things floating in the air would be seen
drifting always westward.
Chapter 8
THE INADEQUACY OF THE PREVIOUS ARGUMENTS AND A
REFUTATION OF THEM
For these and similar reasons the ancients insist that
the earth remains at rest in the middle of the universe.
Yet if anyone believes that the earth rotates, surely he
will hold that its motion is natural, and what is
brought into existence by nature cannot be violent for
it will always be well-ordered so as to long endure.
Ptolemy has no cause, then, to fear that the earth will
be disrupted by a rotation created through natures
handiwork, which is quite different from what art or
human intelligence can accomplish. But why does he not
feel this apprehension even more for the universe, whose
motion must be the swifter, being much bigger than the
earth?
Many do regard that the earth is spherical, yet why do
they hesitate to grant that it moves? The situation
resembles what Virgil's Aeneas says:
Forth from the harbour we sail,
and the land and the cities slip backward
For when a
ship is floating calmly along, the sailors suppose that
they are stationary. In the same way, the motion of the
earth can unquestionably produce the impression that the
entire universe is rotating.
Then what about the clouds and the other things that
hang in the air, or the bodies that fall down, or rise
aloft? We would say that not only the earth rotates, but
also the air with the earth. The air closest to the
earth will accordingly seem to be still, and so will the
things suspended in it.
Furthermore, bodies that are carried upward and downward
do not execute a simple, uniform motion. For whatever
falls moves slowly at first but increases its speed as
it drops. On the other hand, we see that fire rises,
then slackens all at once. Circular motion, however,
always rolls along uniformly. But rectilinear motion
quickly stops, bringing bodies to their own place, where
their motion ends. Hence we can say that "circular" is
with "rectilinear" as "being alive" with "being sick".
Surely Aristotle's division of simple motion into three
types is merely a logical exercise.
Moreover, the quality of immobility is deemed more
divine than change and instability, and therefore better
suited to the earth than to the universe. But, it would
seem quite absurd to attribute motion to the framework
of space, and not, more appropriately, to that which
occupies space, namely, the earth. Last of all, the
planets clearly approach closer to the earth and recede
farther from it. You see, then, that all these arguments
make it more likely that the earth moves than that it is
at rest. This is enough, in my opinion, about the first
part of the question.
Chapter 9
CAN SEVERAL MOTIONS BE ATTRIBUTED TO THE EARTH, THE
CENTER OF THE UNIVERSE?
Since nothing prevents the earth from moving, we should
now consider whether it has one motion, or several, and
whether it can be regarded as one of the planets. For,
it is clear from the apparent nonuniform motion of the
planets and the way that they vary in their distances
from the earth, that these phenomena cannot be explained
by circles concentric with the earth. Therefore, the
further question arises whether the centre of the
universe is identical with the centre of terrestrial
gravity or with some other point. For my part I believe
that gravity is nothing but a certain natural desire,
implanted by the Creator, to gather all things towards
the unity of a globe. This impulse is present, we may
suppose, also in the sun, moon, and the other planets,
so that through its operation they remain as spheres.
But, they swing round their circuits in diverse ways.
If, then, we accept that the sun is at rest, and the
earth and other planets revolve around it, this will
explain the risings and settings of the zodiacal signs
and fixed stars. The positions of the planets, as well
as their retrogradations and resumptions of forward
motion will be recognised as being, not movements of the
planets, but a mere appearance caused by the motion of
the earth. All these facts are disclosed to us by
observing the order in which the planets follow one
another, and by the harmony of the entire universe, if
only we look at the matter, as the saying goes, with
both eyes.
Chapter 10
THE ORDER OF THE HEAVENLY SPHERES
Of all things visible, that the highest is the heaven of
the fixed stars, is doubted by nobody. But the ancient
philosophers, assuming that, among objects moving
equally fast, those farther away seem to travel more
slowly, as is proved in Euclid's Optics. The moon
revolves in the shortest period of time because,
therefore, it runs on the smallest circle, nearest to
the earth. The highest planet, on the other hand, is
Saturn, which completes the biggest circuit in the
longest time. Below it is Jupiter, followed by Mars.
According to Plato's followers, all the planets, being
dark bodies, shine because they receive sunlight. Thus,
they must be above the sun, otherwise we would see them
sometimes obscured by shadows, which we do not.
In my judgement, therefore, we may look to the ideas of
Martianus Capella, the author of an encyclopedia, and
other Latin writers, who thought that Venus and Mercury
do not circle the earth, but have "other circles". And
what other circle might there be, but that of the sun?
If anyone seizes on this notion, may he not also think
likewise of Saturn, Jupiter, and Mars, and of the earth
too?
Hence I feel no shame in asserting that the moon and the
earth traverse a grand circle amid the rest of the
planets in an annual revolution around the sun.
Moreover, since the sun remains stationary, whatever
appears as a motion of the sun is really due rather to
the motion of the earth. This should be admitted, I
believe, in preference to perplexing the mind with an
almost infinite multitude of spheres, as must be done by
those astronomers who try to fix the earth in the middle
of the universe. On the contrary, we should rather heed
the wisdom of nature, which especially avoids producing
anything superfluous or useless, and frequently endows a
single thing with many effects.
All these
statements are difficult and almost inconceivable, being
of course opposed to the beliefs of many people. Yet, as
we proceed, with God's help I shall make them clearer
than sunlight, at any rate to those who know some
astronomy. So, if the size of the spheres is measured by
the length of time of their rotation, the order of the
spheres is the following:
The first and the highest sphere is of the fixed stars,
which contains everything, and is therefore immovable.
This is followed by the sphere of the first planet,
Saturn, which completes its circuit in 30 years. After
Saturn, Jupiter revolves in 12 years. Then Mars in 2
years. The fourth place is the earth, together with its
moon. In the fifth place Venus in 9 months. Lastly, in
the sixth place, Mercury, which revolves in 80 days.
At rest, however, in the middle of everything is the
sun. For in this most beautiful temple, who would place
this lamp in another or better position than that from
which it can light up the whole thing at the same time?
For, is not the sun called 'the lantern of the universe'
and, 'its mind' and by others 'its ruler'? Hermes the
Thrice Greatest calls it 'a visible god', and Sophocles'
Electra, 'the all-seeing'. Thus indeed, as though upon a
royal throne, the sun governs the family of planets
revolving around it.
In this arrangement, therefore, we discover a marvelous
symmetry of the universe, a harmonious linkage between
the motion of the spheres and their size, such as can be
found in no other way. From this, the attentive student
may explain the many and curious motions of the planets.
Yet no such curiosities appear in the fixed stars. This
proves their immense height, which makes the sphere of
their annual motion vanish from before our eyes. For,
every visible object has some measure of distance beyond
which it is no longer seen, as is demonstrated in
optics. From Saturn, the highest of the planets, to the
sphere of the fixed stars there is an additional gap of
the largest size. This is shown by the twinkling lights
of the stars. By this token in particular they are
distinguished from the planets, for there had to be a
very great difference between what moves and what does
not move. So vast, without any question, is the divine
handiwork of the most excellent Almighty.
Chapter 11
OF THE EARTH'S TRIPLE MOTION
So, the planets bear witness to the earth's mobility,
and this motion must be admitted to be of three sorts.
The first sort of motion, named nuchthemeron by the
Greeks, as I said, is the rotation of day and night.
This turns the earth around its equator from east to
west, just as the universe appears to turn in the
opposite way.
The second is the yearly motion of the earth around the
sun. Its direction is likewise from west to east,
because of it, the sun seems to move through the zodiac.
Thus, for example, when the earth's centre is passing
through the Goat, the sun appears to be traversing the
Crab; with the earth in the Water Bearer, the sun seems
to be in the Lion, and so on.
It must also be understood that as the yearly motion
proceeds, so the angle of the earth's axis also changes.
For this must account for the variance of the length of
days and nights in winter and summer.
Since these are matters which crave to be set before our
eyes rather than spoken of, let us draw the diagram
number four. Here is inscribed a circle ABCD, which
represents the annual path of the earth's ecliptic
around the sun, which is at E. I shall divide this
circle into four parts. Let A represent the first point
of the Crab, B of the Balance, C of the Goat, and D of
the Ram. At each of these points I shall draw a circle
FGHI to represent the earth when at that position. You
will see that I have not shown all these things in the
same plane, but rather with the earth's ecliptic ABCD
viewed, as it were, from above, and the globes of the
earth FGHI viewed, as it were, from the side. Now, you
will see that the axis of the earth, FH, does, at
different seasons, present a different angle towards the
sun. Under the conditions thus set forth, the earth's
inhabitants will see the sun undergo the winter solstice
in the Goat. This occurs because the greatest northward
inclination, H, is turned toward the sun. And so for the
other seasons, where the inclination of the earth will
bring a greater or lesser part of its surface toward or
away from the sun.
However, the
annual inclination is not always equal. There is a
slight variation, discovered only as it grew larger with
the passage of time. From Ptolemy's day to ours, the
precession of the equinoxes amounts to almost 21°. To
explain this, some people have told that the sphere of
the fixed stars has a movement governed by a further,
ninth, or a tenth, surmounting sphere. Yet they do not
in the least attain their goal of explaining the
movement of the orbs, which I can reach by accepting
that the earth does move. This principle I shall use as
a hypothesis in the demonstration of the other motions
in the following books.
THE END OF BOOK ONE
Nicolaus Copernicus
1473-1543
Copernicus' memorial in Frombork Cathedral, Poland
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