A JOURNEY IN OTHER WORLDS
A ROMANCE OF THE
FUTURE
BY JOHN JACOB ASTOR
PREFACE.
The protracted struggle between science and the classics appears
to be
drawing to a close, with victory about to perch on the
banner of science, as
a perusal of almost any university or
college catalogue shows. While a
limited knowledge of both Greek
and Latin is important for the correct use of
our own language,
the amount till recently required, in my judgment, has
been
absurdly out of proportion to the intrinsic value of these
branches,
or perhaps more correctly roots, of study. The
classics have been
thoroughly and painfully threshed out, and it
seems impossible that anything
new can be unearthed. We may
equal the performances of the past, but
there is no opportunity
to surpass them or produce anything original.
Even the
much-vaunted "mental training" argument is beginning to pall;
for
would not anything equally difficult give as good developing
results,
while by learning a live matter we kill two birds with
one stone? There
can be no question that there are many forces
and influences in Nature whose
existence we as yet little more
than suspect. How much more interesting
it would be if, instead
of reiterating our past achievements, the magazines
and
literature of the period should devote their consideration to
what we
do NOT know! It is only through investigation and
research that
inventions come; we may not find what we are in
search of, but may discover
something of perhaps greater moment.
It is probable that the principal
glories of the future will be
found in as yet but little trodden paths, and
as Prof. Cortlandt
justly says at the close of his history, "Next to
religion, we
have most to hope from science."
CONTENTS.
BOOK
I.
CHAPTER
I.-JUPITER.
II.-ANTECEDENTAL
III.-PRESIDENT BEARWARDEN'S
SPEECH
IV.-PROF. CORTLANDT'S HISTORICAL SKETCH OF THE
WORLD
IN A.D.
2000
V.-DR. CORTLANDT'S HISTORY
CONTINUED
VI.-FAR-REACHING
PLANS
VII.-HARD AT
WORK
VIII.-GOOD-BYE
BOOK II.
I.-THE LAST OF THE
EARTH
II.-SPACE AND
MARS
III.-HEAVENLY
BODIES
IV.-PREPARING TO
ALIGHT
V.-EXPLORATION AND
EXCITEMENT
VI.-MASTODON AND
WILL-O'-THE-WISP
VII.-AN UNSEEN
HUNTER
VIII.-SPORTSMEN'S
REVERIES
IX.-THE HONEY OF
DEATH
X.-CHANGING
LANDSCAPES
XI.-A JOVIAN
NIAGARA
XII.-HILLS AND
VALLEYS
XIII.-NORTH-POLAR
DISCOVERIES
XIV.-THE SCENE
SHIFTS
BOOK III.
I-SATURN
II.-THE SPIRIT'S FIRST
VISIT
HI.-DOUBTS AND
PHILOSOPHY
IV.-A PROVIDENTIAL
INTERVENTION
V.-AYRAULT'S
VISION
VI.-A GREAT VOID AND A GREAT
LONGING
VII.-THE SPIRIT'S SECOND
VISIT
VIII.-CASSANDRA AND
COSMOLOGY
IX.-DR. CORTLANDT SEES HIS
GRAVE
X.-AYRAULT
XI.-DREAMLAND TO
SHADOWLAND
XII.-SHEOL
XIII.-THE PRIEST'S
SERMON
XIV.-HIC ILLE
JACET
XV.-MOTHER
EARTH
LIST OF ILLUSTRATIONS,
INCLUDING NINE
DRAWINGS BY MR. DAN.
BEARD,
AND A
DIAGRAM.
----
The Callisto and
the
Comet
The Callisto was going straight
up
The Signals from the Arctic
Circle
Diagram of the Comparative Sizes of the Planets
The
Ride on the Giant
Tortoise
A Battle Royal on
Jupiter
The Combat with the
Dragons
Ayrault's
Vision
They look into the
Future
The
Return
BOOK I.
A JOURNEY IN OTHER
WORLDS.
----
CHAPTER 1.
JUPITER.
Jupiter--the magnificent planet with a diameter of
86,500
miles, having 119 times the surface and 1,300 times the volume
of
the earth--lay beneath them.
They had often seen it in
the terrestrial sky, emitting its
strong, steady ray, and had thought of that
far-away planet,
about which till recently so little had been known, and a
burning
desire had possessed them to go to it and explore its mysteries.
Now, thanks to APERGY, the force whose existence the ancients
suspected,
but of which they knew so little, all things were
possible.
Ayrault manipulated the silk-covered glass handles, and the
Callisto
moved on slowly in comparison with its recent speed,
and all remained
glued to their telescopes as they peered through
the rushing clouds, now
forming and now dissolving before their
eyes. What transports of
delight, what ecstatic bliss, was
theirs! Men had discovered and
mastered the secret of apergy,
and now, "little lower than the angels," they
could soar through
space, leaving even planets and comets
behind.
"Is it not strange," said Dr. Cortlandt, "that
though it has been
known for over a century that bodies charged with
unlike
electricities attract one another, and those charged with
like
repel, no one thought of utilizing the counterpart
of
gravitation? In the nineteenth century, savants and
Indian
jugglers performed experiments with their disciples and masses
of
inert matter, by causing them to remain without visible support
at some
distance from the ground; and while many of these, of
course, were quacks,
some were on the right track, though they
did not push their
research."
President Bearwarden and Ayrault assented.
They were steering
for an apparently hard part of the planet's surface, about
a
degree and a half north of its equator.
"Since
Jupiter's axis is almost at right angles to the plane of
its orbit,"
said the doctor, "being inclined only about one
degree and a half, instead of
twenty-three and a half, as was the
earth's till nearly so recently, it will
be possible for us to
have any climate we wish, from constantly warm at the
equator to
constantly cool or cold as we approach the poles, without
being
troubled by extremes of winter and summer."
Until
the Callisto entered the planet's atmosphere, its five
moons appeared like
silver shields against the black sky, but now
things were looking more
terrestrial, and they began to feel at
home. Bearwarden put down his
note-book, and Ayrault returned a
photograph to his pocket, while all three
gazed at their new
abode. Beneath them was a vast continent variegated
by chains of
lakes and rivers stretching away in all directions except
toward
the equator, where lay a placid ocean as far as their
telescopes
could pierce. To the eastward were towering and
massive
mountains, and along the southern border of the continent
smoking
volcanoes, while toward the west they saw forests, gently
rolling
plains, and table-lands that would have satisfied a poet or set
an
agriculturist's heart at rest. "How I should like to mine
those hills
for copper, or drain the swamps to the south!"
exclaimed Col.
Bearwarden. "The Lake Superior mines and the
reclamation of the Florida
Everglades would be nothing to this."
"Any inhabitants we
may find here have so much land at their
disposal that they will not need to
drain swamps on account of
pressure of population for some time," put in the
doctor.
"I hope we may find some four-legged inhabitants,"
said Ayrault,
thinking of their explosive magazine rifles. "If Jupiter
is
passing through its Jurassic or Mesozoic period, there must be
any
amount of some kind of game." Just then a quiver shook the
Callisto,
and glancing to the right they noticed one of the
volcanoes in violent
eruption. Smoke filled the air in clouds,
hot stones and then floods of
lava poured from the crater, while
even the walls of the hermetically sealed
Callisto could not
arrest the thunderous crashes that made the interior of
the car
resound.
"Had we not better move on?" said
Bearwarden, and accordingly
they went toward the woods they had first
seen. Finding a firm
strip of land between the forest and an arm of the
sea, they
gently grounded the Callisto, and not being altogether sure
how
the atmosphere of their new abode would suit terrestrial lungs,
or
what its pressure to the square inch might be, they cautiously
opened a
port-hole a crack, retaining their hold upon it with its
screw.
Instantly there was a rush and a whistling sound as of
escaping steam, while
in a few moments their barometer stood at
thirty-six inches, whereupon they
closed the opening.
"I fancy," said Dr. Cortlandt, "we had
better wait now till we
become accustomed to this pressure. I do not
believe it will go
much higher, for the window made but little resistance
when we
shut it."
Finding they were not inconvenienced by
a pressure but little
greater than that of a deep coal-mine, they again
opened the
port, whereupon their barometer showed a further rise
to
forty-two, and then remained stationary. Finding also that
the
chemical composition of the air suited them, and that they had
no
difficulty in breathing, the pressure being the same as that
sustained
by a diver in fourteen feet of water, they opened a
door and emerged.
They knew fairly well what to expect, and were
not disturbed by their new
conditions. Though they had
apparently gained a good deal in weight as
a result of their
ethereal journey, this did not incommode them; for
though
Jupiter's volume is thirteen hundred times that of the earth,
on
account of its lesser specific gravity, it has but three hundred
times
the mass--i. e., it would weigh but three hundred times as
much.
Further, although a cubic foot of water or anything else
weighs 2.5 as much
as on earth, objects near the equator, on
account of Jupiter's rapid
rotation, weigh one fifth less than
they do at the poles, by reason of the
centrifugal force.
Influenced by this fact, and also because they were
483,000,000
miles from the sun, instead of 92,000,000 as on earth, they
had
steered for the northern limit of Jupiter's tropics. And,
in
addition to this, they could easily apply the apergetic power in
any
degree to themselves when beyond the limits of the Callisto,
and so be
attracted to any extent, from twice the pull they
receive from gravitation on
earth to almost nothing.
Bearwarden and Ayrault shouldered
their rifles, while Dr.
Cortlandt took a repeating shot-gun with No. 4 shot,
and, having
also some hunting-knives and a sextant, all three set out in
a
northwesterly direction. The ground was rather soft, and a
warm
vapor seemed to rise from it. To the east the sky was veiled
by
dense clouds of smoke from the towering volcanoes, while on their
left
the forest seemed to extend without limit. Clumps of huge
ferns were
scattered about, and the ground was covered with
curious
tracks.
"Jupiter is evidently passing through a
Carboniferous or Devonian
period such as existed on earth, though, if
consistent with its
size, it should be on a vastly larger scale," said the
doctor.
"I never believed in the theory," he continued, "that the
larger
the planet the smaller should be its inhabitants, and
always
considered it a makeshift, put forward in the absence of
definite
knowledge, the idea being apparently that the weight of
very
large creatures would be too great for their strength. Of
the
fact that mastodons and creatures far larger than any now living
on
earth existed there, we have absolute proof, though
gravitation must have
been practically the same then as now."
Just here they came
upon a number of huge bones, evidently the
remains of some saurian, and many
times the size of a grown
crocodile. On passing a growth of most
luxuriant vegetation,
they saw a half-dozen sacklike objects, and drawing
nearer
noticed that the tops began to swell, and at the same time
became
lighter in colour. Just as the doctor was about to
investigate
one of them with his duck-shot, the enormously inflated tops
of
the creatures collapsed with a loud report, and the entire group
soared
away. When about to alight, forty yards off, they
distended membranous
folds in the manner of wings, which checked
their descent, and on touching
the ground remained where they
were without rebound.
"We
expected to find all kinds of reptiles and birds," exclaimed
the
doctor. "But I do not know how we should class
those
creatures. They seem to have pneumatic feet and legs, for
their
motion was certainly not produced like that of frogs."
When the party came up with them the heads again began to
swell.
"I will perforate the air-chamber of one," said Col.
Bearwarden,
withdrawing the explosive cartridge from the barrel of his
rifle
and substituting one with a solid ball. "This will
doubtless
disable one so that we can examine it."
Just as
they were about to rise, he shot the largest through the
neck. All but
the wounded one, soared off, while Bearwarden,
Ayrault, and Cortlandt
approached to examine it more closely.
"You see," said
Cortlandt, "this vertebrate--for that is as
definitely as we can yet describe
it--forces a great pressure of
air into its head and neck, which, by the
action of valves, it
must allow to rush into its very rudimentary lower
extremities,
distending them with such violence that the body is shot
upward
and forward. You may have noticed the tightly inflated
portion
underneath as they left the ground."
While
speaking he had moved rather near, when suddenly a
partially concealed mouth
opened, showing the unmistakable tongue
and fangs of a serpent. It
emitted a hissing sound, and the
small eyes gleamed
maliciously.
"Do you believe it is a poisonous species?"
asked Ayrault.
"I suspect it is," replied the doctor; "for,
though it is
doubtless able to leap with great accuracy upon its prey, we
saw
it took some time to recharge the upper air-chamber, so that,
were it
not armed with poison glands, it would fall an easy
victim to its more
powerful and swifter contemporaries, and would
soon become
extinct."
"As it will be unable to spring for some time,"
said Bearwarden,
"we might as well save it the disappointment of trying,"
and,
snapping the used shell from his rifle, he fired an explosive
ball
into the reptile, whereupon about half the body disappeared,
while a
sickening odour arose. Although the sun was still far
above the
horizon, the rapidity with which it was descending
showed that the short
night of less than five hours would soon be
upon them; and though short it
might be very dark, for they were
in the tropics, and the sun, going down
perpendicularly, must
also pass completely around the globe, instead of, as
in northern
latitudes on earth in summer, approaching the horizon
obliquely,
and not going far below it. A slight and diffused sound
here
seemed to rise from the ground all about them, for which they
could
not account. Presently it became louder, and as the sun
touched the
horizon, it poured forth in prolonged strains. The
large trumpet-shaped
lilies, reeds, and heliotropes seemed fairly
to throb as they raised their
anthem to the sky and the setting
sun, while the air grew dark with clouds of
birds that gradually
alighted on the ground, until, as the chorus grew
fainter and
gradually ceased, they flew back to their nests. The
three
companions had stood astonished while this act was played.
The
doctor then spoke:
"This is the most marvellous
development of Nature I have seen,
for its wonderful divergence from, and yet
analogy to, what takes
place on earth. You know our flowers offer
honey, as it were, as
bait to insects, that in eating or collecting it they
may catch
the pollen on their legs and so carry it to other
flowers,
perhaps of the opposite sex. Here flowers evidently appeal
to
the sense of hearing instead of taste, and make use of birds, of
which
there are enormous numbers, instead of winged insects, of
which I have seen
none, one being perhaps the natural result of
the other. The flowers
have become singers by long practice, or
else, those that were most musical
having had the best chance to
reproduce, we have a neat illustration of the
'survival of the
fittest.' The sound is doubtless produced by a
shrinking of the
fibres as the sun withdraws its heat, in which case we may
expect
another song at sunrise, when the same result will be effected
by
their expanding."
Searching for a camping-place in
which to pass the coming hours,
they saw lights flitting about like
will-o'-the-wisps, but
brighter and intermittent.
"They
seem to be as bright as sixteen-candle-power lamps, but the
light is
yellower, and appears to emanate from a comparatively
large surface,
certainly nine or ten inches square," said the
doctor.
They soon gave up the chase, however, for the lights were
continually
moving and frequently went out. While groping in the
growing darkness,
they came upon a brown object about the size of
a small dog and close to the
ground. It flew off with a humming
insect sound, and as it did so it
showed the brilliant
phosphorescent glow they had observed.
"That is a good-sized fire-fly," said Bearwarden. "Evidently
the
insects here are on the same scale as everything else. They
are
like the fire-flies in Cuba, which the Cubans are said to put
into a
glass box and get light enough from to read by. Here they
would need
only one, if it could be induced to give its
light
continuously."
Having found an open space on high
ground, they sat down, and
Bearwarden struck his repeater, which, for
convenience, had been
arranged for Jupiter time, dividing the day into ten
hours,
beginning at noon, midnight being therefore five
o'clock.
"Twenty minutes past four," said he, "which would
correspond to
about a quarter to eleven on earth. As the sun rises
at
half-past seven, it will be dark about three hours, for the
time
between dawn and daylight will, of course, be as short as that
we
have just experienced between sunset and night."
"If
we stay here long," said the doctor, "I suppose we shall
become accustomed,
like sailors, to taking our four, or in this
case five, hours on duty, and
five hours off."
"Or," added Ayrault, "we can sleep ten
consecutive hours and take
the next ten for exploring and hunting, having the
sun for one
half the time and the moons for the other."
Bearwarden and Cortlandt now rolled themselves in their blankets
and were
soon asleep, while Ayrault, whose turn it was to watch
till the moons
rose--for they had not yet enough confidence in
their new domain to sleep in
darkness simultaneously--leaned his
back against a rock and lighted his
pipe. In the distance he saw
the torrents of fiery lava from the
volcanoes reflected in the
sky, and faintly heard their thunderous crashes,
while the
fire-flies twinkled unconcernedly in the hollow, and the
night
winds swayed the fernlike branches. Then he gazed at the
earth,
which, but little above the horizon, shone with a faint but
steady
ray, and his mind's eye ran beyond his natural vision
while he pictured to
himself the girl of his heart, wishing that
by some communion of spirits he
might convey his thoughts to her,
and receive hers. It was now the
first week of January on earth.
He could almost see her house and the
snow-clad trees in the
park, and knew that at that hour she was dressing for
dinner, and
hoped and believed that he was in her heart. While he
thus
mused, one moon after another rose, each at a different phase,
till
three were at once in the sky. Adjusting the electric
protection- wires
that were to paralyze any creature that
attempted to come within the circle,
and would arouse them by
ringing a bell, he knocked the ashes from his pipe,
rolled
himself in a blanket, and was soon asleep beside his friends.
CHAPTER II.
ANTECEDENTAL.
"Come in!" sounded a voice, as Dr. Cortlandt
and Dick Ayrault
tapped at the door of the President of the Terrestrial
Axis
Straightening Company's private office on the morning of the 21st
of
June, A. D. 2000. Col. Bearwarden sat at his capacious desk,
the
shadows passing over his face as April clouds flit across the
sun. He
was a handsome man, and young for the important post he
filled--being
scarcely forty--a graduate of West Point, with
great executive ability, and a
wonderful engineer. "Sit down,
chappies," said he; "we have still a
half hour before I begin to
read the report I am to make to the stockholders
and
representatives of all the governments, which is now ready.
I
know YOU smoke," passing a box of Havanas to the professor.
Prof. Cortlandt, LL. D., United States Government expert,
appointed to
examine the company's calculations, was about fifty,
with a high forehead,
greyish hair, and quick, grey eyes, a
geologist and astronomer, and
altogether as able a man, in his
own way, as Col. Bearwarden in his.
Richard Ayrault, a large
stockholder and one of the honorary vice-presidents
in the
company, was about thirty, a university man, by nature a
scientist,
and engaged to one of the prettiest society girls, who
was then a student at
Vassar, in the beautiful town of
Poughkeepsie.
"Knowing
the way you carry things in your mind, and the
difficulty of rattling you,"
said Cortlandt, "we have dropped in
on our way to hear the speech that I
would not miss for a
fortune. Let us know if we bother
you."
"Impossible, dear boy," replied the president
genially. "Since I
survived your official investigations, I think I
deserve some of
your attention informally."
"Here are my
final examinations," said Cortlandt, handing
Bearwarden a roll of
papers. "I have been over all your figures,
and testify to their
accuracy in the appendix I have added."
So they sat and
chatted about the enterprise that interested
Cortlandt and Ayrault almost as
much as Bearwarden himself. As
the clock struck eleven, the president
of the company put on his
hat, and, saying au revoir to his friends, crossed
the street to
the Opera House, in which he was to read a report that would
be
copied in all the great journals and heard over thousands of
miles of
wire in every part of the globe. When he arrived, the
vast building was
already filled with a distinguished company,
representing the greatest
intelligence, wealth, and powers of the
world. Bearwarden went in by
the stage entrance, exchanging
greetings as he did so with officers of the
company and directors
who had come to hear him. Cortlandt and Ayrault
entered by the
regular door, the former going to the Government
representatives'
box, the latter to join his fiancee, Sylvia Preston, who
was
there with her mother. Bearwarden had a roll of manuscript
at
hand, but so well did he know his speech that he scarcely glanced
at
it. After being introduced by the chairman of the meeting,
and seeing
that his audience was all attention, he began, holding
himself erect, his
clear, powerful voice making every part of the
building ring.
CHAPTER III.
PRESIDENT BEARWARDEN'S SPEECH.
"To the Bondholders and Stockholders of the Terrestrial Axis
Straightening
Company and Representatives of Earthly Governments.
"GENTLEMEN: You know that the objects of this company are,
to
straighten the axis of the earth, to combine the extreme heat of
summer
with the intense cold of winter and produce a uniform
temperature for each
degree of latitude the year round. At
present the earth's axis--that
is, the line passing through its
centre and the two poles--is inclined to the
ecliptic about
twenty-three and a half degrees. Our summer is produced
by the
northern hemisphere's leaning at that angle towards the sun,
and
our winter by its turning that much from it. In one case
the
sun's rays are caused to shine more perpendicularly, and in the
other
more obliquely. This wabbling, like that of a top, is the
sole cause of
the seasons; since, owing to the eccentricity of
our orbit, the earth is
actually fifteen hundred thousand miles
nearer the sun during our winter, in
the northern hemisphere,
than in summer. That there is no limit to a
planet's
inclination, and that inclination is not essential, we
have
astronomical proof. Venus's axis is inclined to the plane of
her
orbit seventy-five degrees, so that the arctic circle comes
within
fifteen degrees of the equator, and the tropics also
extend to latitude
seventy-five degrees, or within fifteen
degrees of the poles, producing great
extremes of heat and cold.
"Venus is made still more
difficult of habitation by the fact
that she rotates on her axis in the same
time that she revolves
about the sun, in the same way that the moon does
about the
earth, so that one side must be perpetually frozen while
the
other is parched.
"In Uranus we see the axis tilted
still further, so that the
arctic circle descends to the equator. The
most varied climate
must therefore prevail during its year, whose length
exceeds
eighty-one of ours.
The axis of Mars is inclined
about twenty-eight and two thirds
degrees to the plane of its orbit;
consequently its seasons must
be very similar to ours, the extremes of heat
and cold being
somewhat greater.
"In Jupiter we have an
illustration of a planet whose axis is
almost at right angles to the plane of
its orbit, being inclined
but about a degree and a half. The
hypothetical inhabitants of
this majestic planet must therefore have
perpetual summer at the
equator, eternal winter at the poles, and in the
temperate
regions everlasting spring. On account of the straightness
of
the axis, however, even the polar inhabitants--if there are
any--are
not oppressed by a six months' night, for all except
those at the VERY pole
have a sunrise and a sunset every ten
hours--the exact day being nine hours,
fifty five minutes, and
twenty-eight seconds. The warmth of the tropics
is also tempered
by the high winds that must result from the rapid whirl on
its
axis, every object at the equator being carried around by this at
the
rate of 27,600 miles an hour, or over three thousand miles
farther than the
earth's equator moves in twenty-four hours.
"The inclination
of the axis of our own planet has also
frequently considerably exceeded that
of Mars, and again has been
but little greater than Jupiter's at least, this
is by all odds
the most reasonable explanation of the numerous Glacial
periods
through which our globe has passed, and of the recurring
mild
spells, probably lasting thousands of years, in which
elephants,
mastodons, and other semi-tropical vertebrates roamed in
Siberia,
some of which died so recently that their flesh, preserved by
the
cold, has been devoured by the dogs of modern explorers.
"It is not to be supposed that the inclining of the axes of
Jupiter,
Venus, the Earth, and the other planets, is now fixed;
in some cases it is
known to be changing. As long ago as 1890,
Major-Gen. A. W. Drayson, of
the British Army, showed, in a work
entitled Untrodden Ground in Astronomy
and Geology, that, as a
result of the second rotation of the earth, the
inclination of
its axis was changing, it having been 23@ 28' 23" on January
1,
1750, 23@ 27' 55.3" on January 1, 1800, and 23@ 27' 30.9" on
January 1,
1850; and by calculation one hundred and ten years ago
showed that in 1900
(one hundred years ago) it would be 23@ 27'
08.8". This natural
straightening is, of course, going on, and
we are merely about to anticipate
it. When this improvement was
mooted, all agreed that the EXTREMES of
heat and cold could well
be spared. 'Balance those of summer against
those of winter by
partially straightening the axis; reduce the inclination
from
twenty-three degrees, thirty minutes, to about fifteen degrees,
but
let us stop there,' many said. Before we had gone far,
however, we
found it would be best to make the work complete.
This will reclaim and make
productive the vast areas of Siberia
and the northern part of this continent,
and will do much for the
antarctic regions; but there will still be change in
temperature;
a wind blowing towards the equator will always be colder than
one
blowing from it, while the slight eccentricity of the orbit
will
supply enough change to awaken recollections of seasons in
our
eternal spring.
"The way to accomplish this is to
increase the weight of the pole
leaving the sun, by increasing the amount of
material there for
the sun to attract, and to lighten the pole approaching
or
turning towards the sun, by removing some heavy substance from
it, and
putting it preferably at the opposite pole. This
shifting of ballast is
most easily accomplished, as you will
readily perceive, by confining and
removing water, which is
easily moved and has a considerable weight.
How we purpose to
apply these aqueous brakes to check the wabbling of the
earth, by
means of the attraction of the sun, you will now
see.
"From Commander Fillmore, of the Arctic Shade and the
Committee
on Bulkheads and Dams, I have just received the following
by
cable telephone: 'The Arctic Ocean is now in condition to be
pumped out
in summer and to have its average depth increased one
hundred feet by the
dams in winter. We have already fifty
million square yards of windmill
turbine surface in position and
ready to move. The cables bringing us
currents from the dynamos
at Niagara Falls are connected with our motors, and
those from
the tidal dynamos at the Bay of Fundy will be in contact
when
this reaches you, at which moment the pumps will begin.
In
several of the landlocked gulfs and bays our system of confining
is so
complete, that the surface of the water can be raised two
hundred feet above
sea- level. The polar bears will soon have to
use artificial ice.
Perhaps the cheers now ringing without may
reach you over the
telephone.'"
The audience became greatly interested, and
when the end of the
telephone was applied to a microphone the room fairly
rang with
exultant cheers, and those looking through a kintograph
(visual
telegraph) terminating in a camera obscura on the shores of
Baffin
Bay were able to see engineers and workmen waving and
throwing up their caps
and falling into one another's arms in
ecstasies of delight. When the
excitement subsided, the
president continued:
"Chairman
Wetmore, of the Committee on Excavations and
Embankments in Wilkesland and
the Antarctic Continent, reports:
'Two hundred and fifty thousand square
miles are now hollowed out
and enclosed sufficiently to hold water to an
average depth of
four hundred feet. Every summer, when the basin is
allowed to
drain, we can, if necessary, extend our reservoir, and shall
have
the best season of the year for doing work until the earth
has
permanent spring. Though we have comparatively little water
or
tidal power, the earth's crust is so thin at this latitude, on
account
of the flattening, that by sinking our tubular boilers
and pipes to a depth
of a few thousand feet we have secured so
terrific a volume of superheated
steam that, in connection with
our wind turbines, we shall have no difficulty
in raising half a
cubic mile of water a minute to our enclosure, which is
but
little above sea-level, and into which, till the pressure
increases,
we can fan or blow the water, so that it can be full
three weeks after our
longest day, or, since the present
unimproved arrangement gives the indigenes
but one day and night
a year, I will add the 21st day of
December.
"'We shall be able to find use for much of the
potential energy
of the water in the reservoir when we allow it to escape in
June,
in melting some of the accumulated polar ice-cap, thereby
decreasing
still further the weight of this pole, in lighting and
warming ourselves
until we get the sun's light and heat, in
extending the excavations, and in
charging the storage batteries
of the ships at this end of the line.
Everything will be ready
when you signal "Raise water."'"
"Let me add parenthetically," said Bearwarden, "that this means
of
obtaining power by steam boilers sunk to a great depth is much
to be
commended; for, though the amount of heat we can withdraw
is too small to
have much effect, the farther towards the centre
our globe can be cooled the
deeper will the water of the oceans
be able to penetrate--since it is its
conversion into steam that
prevents the water from working its way in
farther--and the more
dry land we shall have."
"You see,"
the president continued, "the storage capacity at the
south pole is not quite
as great as at the north, because it is
more difficult to excavate a basin
than to close the exits of one
that already exists, which is what we have
done in the arctic.
The work is also not so nearly complete, since it will
not be
necessary to use the southern reservoir for storing weight for
six
months, or until the south pole, which is now at its maximum
declination from
the sun, is turned towards it and begins to move
away; then, by increasing
the amount of matter there, and at the
same time lightening the north pole,
and reversing the process
every six months, we decrease the speed at which
the departing
pole leaves the sun and at which the approaching pole advances.
The north pole, we see, will be a somewhat more powerful lever
than the
south for working the globe to a straight position, but
we may be sure that
the latter, in connection with the former,
will be able to hold up its
end."
[The building here fairly shook with applause, so that, had the
arctic
workers used the microphone, they might have heard in the
enthusiastic uproar
a good counterpart of their own period.]
"I only regret,"
the president continued, "that when we began
this work the most marvellous
force yet discovered--apergy--was
not sufficiently understood to be utilized,
for it would have
eased our labours to the point of almost eliminating
them. But
we have this consolation: it was in connection with our work
that
its applicability was discovered, so that had we and all
others
postponed our great undertaking on the pretext of waiting for a
new
force, apergy might have continued to lie dormant for
centuries. With
this force, obtained by simply blending negative
and positive electricity
with electricity of the third element or
state, and charging a body
sufficiently with this fluid,
gravitation is nullified or partly reversed,
and the earth repels
the body with the same or greater power than that with
which it
still attracts or attracted it, so that it may be suspended
or
caused to move away into space. Sic itur ad astra, we may say.
With this force and everlasting spring before us, what may we
not
achieve? We may some day be able to visit the planets,
though
many may say that, since the axes of most of those we
have
considered are more inclined than ours, they would rather
stay
here. 'Blessed are they that shall inherit the earth,'" he
went
on, turning a four-foot globe with its axis set vertically and
at
right angles to a yellow globe labelled "Sun"; and again
waxing
eloquent, he added: "We are the instruments destined to
bring
about the accomplishment of that prophecy, for never in the
history
of the world has man reared so splendid a monument to his
own genius as he
will in straightening the axis of the planet.
"No one need
henceforth be troubled by sudden change, and every
man can have perpetually
the climate he desires. Northern Europe
will again luxuriate in a
climate that favoured the elephants
that roamed in northern Asia and
Switzerland. To produce these
animals and the food they need, it is not
necessary to have great
heat, but merely to prevent great cold, half the
summer's sun
being absorbed in melting the winter's accumulation of
ice.
"When the axis has reached a point at which it inclines
but about
twelve degrees, it will become necessary to fill the
antarctic
reservoir in June and the Arctic Ocean in December, in order
to
check the straightening, since otherwise it might get beyond
the
perpendicular and swing the other way. When this motion
is
completely arrested, I suggest that we blow up the Aleutian Isles
and
enlarge Bering Strait, so as to allow what corresponds to the
Atlantic Gulf
Stream in the Pacific to enter the Arctic
Archipelago, which I have
calculated will raise the average
temperature of that entire region about
thirty degrees, thereby
still further increasing the amount of available
land.
"Ocean currents, being the result of the prevailing
winds, which
will be more regular than at present, can be counted upon
to
continue practically as they are. It may not be plain to you
why
the trade winds do not blow towards the equator due south and
north,
since the equator has much the same effect on air that a
stove has in the
centre of a room, causing an ascending current
towards the ceiling, which
moves off in straight lines in all
directions on reaching it, its place being
taken by cold currents
moving in opposite directions along the floor.
Picture to
yourselves the ascending currents at the equator moving off
to
the poles from which they came. As they move north they
are
continually coming to parts of the globe having smaller circles
of
latitude than those they have left, and therefore not moved
forward as
rapidly by the earth's daily rotation as the latitudes
nearer the
equator. The winds consequently run ahead of the
surface, and so move
east of north--the earth turning towards the
east--while the heavier colder
surface currents, rushing towards
the equator to take the place of the
ascending column, coming
from regions where the surface whirls comparatively
slowly to
those where it is rotating faster, are continually left
behind,
and so move southwest; while south of the equator a
corresponding
motion results. Though this is not the most exact
explanation,
it may serve to make the action clear. I will add, that if
any
one prefers a colder or a warmer climate than that of the place
in
which he lives, he need only go north or south for an hour;
or, if he prefers
his own latitude, he can rise a few thousand
feet in the air, or descend to
one of the worked-out coal-mines
which are now used as sanitariums, and
secure his object by a
slight change of altitude. Let us speed the
departure of racking
changes and extremes of climate, and prepare to welcome
what we
believe prevails in paradise--namely, everlasting
spring."
Appended to the address was the report of the
Government
Examining Committee, which ran: "We have critically examined
the
Terrestrial Axis Straightening Company's figures and
calculations,
also its statements involving natural philosophy,
physics, and astronomy, all
of which we find correct, and hereby
approve.
[Signed] "For the Committee:
"HENRY CHELMSFORD CORTLANDT,
"Chairman."
The Board of Directors having ratified the acts of its
officers,
and passed congratulatory resolutions, the meeting adjourned
sine
die.
CHAPTER IV.
PROF. CORTLANDT'S HISTORICAL SKETCH OF THE WORLD
IN A. D. 2000.
Prof. Cortlandt, preparing a history of the times at the
beginning of
the great terrestrial and astronomical change, wrote
as follows: "This
period--A.D. 2000--is by far the most
wonderful the world has as yet
seen. The advance in scientific
knowledge and attainment within the
memory, of the present
generation has been so stupendous that it completely
overshadows
all that has preceded. All times in history and all periods
of
the world have been remarkable for some distinctive or
characteristic
trait. The feature of the period of Louis XIV was
the splendour of the
court and the centralization of power in
Paris. The year 1789 marked
the decline of the power of courts
and the evolution of government by the
people. So, by the spread
of republican ideas and the great advance in
science, education
has become universal, for women as well as for men, and
this is
more than ever a mechanical age.
"With increased
knowledge we are constantly coming to realize how
little we really know, and
are also continually finding
manifestations of forces that at first seem like
exceptions to
established laws. This is, of course, brought about by
the
modifying influence of some other natural law, though many of
these we
have not yet discovered.
"Electricity in its varied forms
does all work, having superseded
animal and manual labour in everything, and
man has only to
direct. The greatest ingenuity next to finding new uses
for this
almost omnipotent fluid has been displayed in inducing the
forces
of Nature, and even the sun, to produce it. Before
describing
the features of this perfection of civilization, let us
review
the steps by which society and the political world reached
their
present state.
"At the close of the Franco-Prussian
War, in 1871, Continental
Europe entered upon the condition of an armed camp,
which lasted
for nearly half a century. The primary cause of this was
the
mutual dislike and jealousy of France and Germany, each of
which
strove to have a larger and better equipped national defence
than
the other. There were also many other causes, as the ambition
of
the Russian Czar, supported by his country's vast though
imperfectly
developed resources and practically unlimited supply
of men, one phase of
which was the constant ferment in the Balkan
Peninsula, and another Russia's
schemes for extension in Asia;
another was the general desire for colonies in
Africa, in which
one Continental power pretty effectually blocked another,
and the
latent distrust inside the Triple Alliance. England,
meanwhile,
preserved a wise and profitable neutrality.
"These tremendous sacrifices for armaments, both on land and
water, had
far-reaching results, and, as we see it now, were
clouds with silver
linings. The demand for hardened steel
projectiles, nickel-steel
plates, and light and almost
unbreakable machinery, was a great incentive to
improvement in
metallurgy while the necessity for compact and safely
carried
ammunition greatly stimulated chemical research, and led to
the
discovery of explosives whose powers no obstacle can resist,
and
incidentally to other more useful things.
"Further
mechanical and scientific progress, however, such as
flying machines provided
with these high explosives, and
asphyxiating bombs containing compressed gas
that could be fired
from guns or dropped from the air, intervened. The
former would
have laid every city in the dust, and the latter might
have
almost exterminated the race. These discoveries
providentially
prevented hostilities, so that the 'Great War,' so long
expected,
never came, and the rival nations had their pains for
nothing,
or, rather, for others than themselves.
"Let us
now examine the political and ethnological results.
Hundreds of
thousands, of the flower of Continental Europe were
killed by overwork and
short rations, and millions of desirable
and often--unfortunately for
us--undesirable people were driven
to emigration, nearly all of whom came to
English-speaking
territory, greatly increasing our productiveness and
power. As,
we have seen, the jealousy of the Continental powers for
one
another effectually prevented their extending their influence
or
protectorates to other continents, which jealousy was
considerably
aided by the small but destructive wars that did
take place. High taxes
also made it more difficult for the
moneyed men to invest in colonizing or
development companies,
which are so often the forerunners of absorption;
while the
United States, with her coal--of which the Mediterranean
states
have scarcely any--other resources, and low taxes, which,
though
necessary, can be nothing but an evil, has been able to
expand
naturally as no other nation ever has before.
"This has given the English-speakers, especially the United
States, a
free hand, rendering enforcement of the Monroe doctrine
easy, and started
English a long way towards becoming the
universal language, while all
formerly unoccupied land is now
owned by those speaking it.
"At the close of our civil war, in 1865, we had but 3,000,000
square
miles, and a population of 34,000,000. The country
staggered beneath a
colossal debt of over $4,000,000,000, had an
expensive but essentially
perishable navy, and there was an
ominous feeling between the sections.
The purchase of Alaska in
1867, by which we added over half a million square
miles to our
territory, marked the resumption of the forward march of
the
United States. Twenty-five years later, at the
presidential
campaign of 1892, the debt had been reduced to
$900,000,000,
deducting the sinking fund, and the charge for pensions had
about
reached its maximum and soon began to decrease, though no
one
objected to any amount of reward for bona fide soldiers who had
helped
to save the country. The country's wealth had also
enormously
increased, while the population had grown to
65,000,000. Our ancestors
had, completed or in building, a navy
of which no nation need be ashamed;
and, though occasionally
marred by hard times, there was general
prosperity.
"Gradually the different States of Canada--or
provinces, as they
were then called--came to realize that their future would
be far
grander and more glorious in union with the United States
than
separated from it; and also that their sympathy was far stronger
for
their nearest neighbours than for any one else. One by one
these
Northern States made known their desire for consolidation
with the Union,
retaining complete control of their local
affairs, as have the older
States. They were gladly welcomed by
our Government and people, and
possible rivals became the best of
friends. Preceding and also
following this, the States of
Mexico, Central America, and parts of South
America, tiring of
the incessant revolutions and difficulties among
themselves,
which had pretty constantly looked upon us as a big brother
on
account of our maintenance of the Monroe doctrine, began to
agitate for
annexation, knowing they would retain control of
their local affairs.
In this they were vigorously supported by
the American residents and
property-holders, who knew that their
possessions would double in value the
day the United States
Constitution was signed.
"Thus, in
the first place, by the encouragement of our people,
and latterly,
apparently, by its own volition, the Union has
increased enormously in power,
till it now embraces 10,000,000
square miles, and has a free and enlightened
population of
300,000,000. Though the Union established by Washington
and his
contemporaries has attained such tremendous proportions,
its
growth is by no means finished; and as a result of
modern
improvements, it is less of a journey now to go from Alaska to
the
Orinoco than it was for the Father of his Country to travel
from New York or
Philadelphia to the site of the city named in
his honour.
"Adequate and really rapid transportation facilities have
done
much to bind the different parts of the country together, and to
rub
off the edges of local prejudice. Though we always favour
peace, no
nation would think of opposing the expressed wishes of
the United States, and
our moral power for good is tremendous.
The name Japhet means enlargement,
and the prophecy seems about
to be literally fulfilled by these his
descendants. The bankrupt
suffering of so many European Continental
powers had also other
results. It enabled the socialists--who have
never been able to
see beyond themselves--to force their governments into
selling
their colonies in the Eastern hemisphere to England, and
their
islands in the Western to us, in order to realize upon them.
With
the addition of Canada to the United States and its loss to
the British
Empire, the land possessions of the two powers became
about equal, our Union
being a trifle the larger. All danger of
war being removed by the
Canadian change, a healthful and
friendly competition took its place, the
nations competing in
their growth on different hemispheres. England
easily added
large areas in Asia and Africa, while the United States grew
as
we have seen. The race is still, in a sense, neck-and-neck,
and
the English-speakers together possess nearly half the globe.
The
world's recent rate of progress would have been impossible
without
this approximation to a universal language. The causes
that checkmated
the Continental powers have ceased to exist.
Many millions of men whose
principal thought had been to destroy
other members of the race became
producers, but it was then too
late, for the heavy armaments had done their
work.
"Let us now glance at the times as they are, and see
how the
business of life is transacted. Manhattan Island has
something
over 2,500,000 inhabitants, and is surrounded by a belt
of
population, several miles wide, of 12,000,000 more, of which it
is the
focus, so that the entire city contains more than
14,500,000 souls. The
several hundred square miles of land and
water forming greater New York are
perfectly united by numerous
bridges, tunnels, and electric ferries, while
the city's great
natural advantages have been enhanced and beautified by
every
ingenious device. No main avenue in the newer sections is
less
than two hundred feet wide, containing shade and fruit trees,
a
bridle-path, broad sidewalks, and open spaces for carriages
and
bicycles. Several fine diagonal streets and
breathing-squares
have also been provided in the older sections, and the
existing
parks have been supplemented by intermediate ones, all
being
connected by parkways to form continuous chains.
"The hollow masts of our ships--to glance at another phase
en
passant--carry windmills instead of sails, through which the
wind
performs the work, of storing a great part of the energy required
to
run them at sea, while they are discharging or loading cargo
in port; and it
can, of course, work to better advantage while
they are stationary than when
they are running before it. These
turbines are made entirely of light
metal, and fold when not in
use, so that only the frames are visible.
Sometimes these also
fold and are housed, or wholly disappear within the
mast.
Steam-boilers are also placed at the foci of huge concave
mirrors,
often a hundred feet in diameter, the required heat
being supplied by the
sun, without smoke, instead of by bulky and
dirty coal. This discovery
gave commercial value to Sahara and
other tropical deserts, which are now
desirable for mill-sites
and for generating power, on account of the
directness with which
they receive the sun's rays and their freedom from
clouds. Mile
after mile Africa has been won for the uses of
civilization, till
great stretches that were considered impassible are as
productive
as gardens. Our condensers, which compress, cool, and
rarefy
air, enabling travellers to obtain water and even ice from
the
atmosphere, are great aids in desert exploration, removing
absolutely
the principal distress of the ancient caravan. The
erstwhile 'Dark
Continent' has a larger white population now than
North America had a hundred
years ago, and has this advantage for
the future, that it contains 11,600,000
square miles, while North
America has less than 9,000,000. Every part
of the globe will
soon sustain about as large and prosperous a population as
the
amount of energy it receives from the sun and other sources
will
warrant; public debts and the efficiency of the governments being
the
variable elements.
"The rabbits in Australia, and the far
more objectionable
poisonous snakes in South America and India, have
been
exterminated by the capture of a few dozen of the creatures in
the
infested districts, their inoculation with the virus similar
to the murus
tiphi, tuberculosis or any other contagious-germ
complaint to which the
species treated was particularly
susceptible, and the release of these
individuals when the
disease was seen to be taking hold. The rabbits
and serpents
released at once returned to their old haunts, carrying
the
plague far and wide. The unfortunate rabbits were
greatly
commiserated even by the medicos that wielded the
death-dealing
syringe; but, fortunately for themselves, they died
easily. The
reptiles, perhaps on account of the wider distribution of
the
nerve centres, had more lingering but not painful deaths, often,
while
in articulo mortis, leaving the holes with which they
seemed to connect their
discomfort, and making a final struggle
along the ground, only to die more
quickly as a result of their
exertions. We have applied this also to
the potato-bug, locust,
and other insect pests, no victim being too small for
the
ubiquitous, subtle germ, which, properly cultivated and utilized,
has
become one of man's best friends.
"We have microbe tests
that show us as unmistakably whether the
germs of any particular
disease--like malaria, typhoid, or
scarlet fever--are present in the air, as
litmus-paper shows
alkalinity of a solution. We also inoculate as a
preventive
against these and almost all other germ diseases, with the
same
success that we vaccinate for smallpox.
"The
medicinal properties of all articles of food are so well
understood also,
that most cures are brought about simply by
dieting. This, reminds me
of the mistakes perpetrated on a
friend of mine who called in Dr.
Grave-Powders, one of the
old-school physicians, to be treated for insomnia
and dyspepsia.
This old numskull restricted his diet, gave him huge doses
of
medicine, and decided most learnedly that he was daily
growing
worse. Concluding that he had but a short time to live,
my
friend threw away the nauseating medicines, ate whatever he had
a
natural desire for, and was soon as well as ever--the obvious
moral of
which is, that we can get whatever treatment we need
most beneficially from
our food. Our physicians are most serious
and thoughtful men.
They never claim to be infallible, but study
scientifically to increase their
knowledge and improve the
methods of treatment. As a result of this,
fresh air, regular
exercise for both sexes, with better conditions, and
the
preservation of the lives of children that formerly died by
thousands
from preventable causes, the physique, especially of
women, is wonderfully
improved, and the average longevity is
already over sixty.
"Our social structure, to be brief, is based on science, or
the
conservation of energy, as the Greek philosophers predicted.
It
was known to them that a certain amount of power would produce
only a
certain amount of work--that is, the weight of a clock in
descending or a
spring in uncoiling returns theoretically the
amount of work expended in
raising or coiling it, and in no
possible way can it do more. In
practice, on account of
friction, etc., we know it does less. This law,
being
invariable, of course limits us, as it did Archimedes
and
Pythagoras; we have simply utilized sources of power that their
clumsy
workmen allowed to escape. Of the four principal
sources--food, fuel,
wind, and tide--including harnessed
waterfalls, the last two do by far the
most work. Much of the
electrical energy in every thunderstorm is also
captured and
condensed in our capacious storage batteries, as natural
hygeia
in the form of rain was and is still caught in our
country
cisterns. Every exposed place is crowned by a cluster of
huge
windmills that lift water to some pond or reservoir placed as
high as
possible. Every stiff breeze, therefore, raises millions
of tons of
water which operate hydraulic turbines as required.
Incidentally these
storage reservoirs, by increasing the surface
exposed to evaporation and the
consequent rainfall, have a very
beneficial effect on the dry regions in the
interior of the
continent, and in some cases have almost superseded
irrigation.
The windmill and dynamo thus utilize bleak mountain-tops
that,
till their discovery, seemed to be but indifferent successes in
Dame
Nature's domain. The electricity generated by these, in
connection with
that obtained by waterfalls, tidal dynamos,
thunderstorms, chemical action,
and slow-moving
quadruple-expansion steam engines, provides the power
required to
run our electric ships and water-spiders, railways,
and
stationary and portable motors, for heating the cables laid along
the
bottom of our canals to prevent their freezing in winter, and
for almost
every conceivable purpose. Sometimes a man has a
windmill on his roof
for light and heat; then, the harder the
wintry blasts may blow the brighter
and warmer becomes the house,
the current passing through a storage battery
to make it more
steady. The operation of our ordinary electric railways
is very
simple: the current is taken from an overhead, side, or
underneath
wire, directly through the air, without the
intervention of a trolley, and
the fast cars, for they are no
longer run in trains, make five miles a
minute. The entire
weight of each car being used for its own traction,
it can ascend
very steep grades, and can attain high speed or stop
very
quickly.
"Another form is the magnetic railway, on
which the cars are
wedge-shaped at both ends, and moved by huge magnets
weighing
four thousand tons each, placed fifty miles apart. On passing
a
magnet, the nature of the electricity charging a car is
automatically
changed from positive to negative, or vice versa,
to that of the magnet just
passed, so that it repels while the
next attracts. The successive
magnets are charged oppositely,
the sections being divided halfway between by
insulators, the
nature of the electricity in each section being governed by
the
charge in the magnet. To prevent one kind of electricity
from
uniting with and neutralizing that in the next section by
passing
through the car at the moment of transit, there is a
"dead
stretch" of fifty yards with rails not charged at all between
the
sections. This change in the nature of the electricity
is
repeated automatically every fifty miles, and obviates the
necessity of
revolving machinery, the rails aiding communication.
"Magnetism being practically as instantaneous as gravitation, the
only
limitations to speed are the electrical pressure at the
magnets, the
resistance of the air, and the danger of the wheels
bursting from centrifugal
force. The first can seemingly be
increased without limit; the
atmospheric resistance is about to
be reduced by running the cars
hermetically sealed through a
partial vacuum in a steel and toughened glass
tube; while the
third has been removed indefinitely by the use of
galvanized
aluminum, which bears about the same relation to
ordinary
aluminum that steel does to iron, and which has twice the
tensile
strength and but one third the weight of steel. In some
cases
the rails are made turned in, so that it would be impossible for
a
car to leave the track without the road-bed's being totally
demolished; but
in most cases this is found to be unnecessary,
for no through line has a
curve on its vast stretches with a
radius of less than half a mile.
Rails, one hundred and sixty
pounds to the yard, are set in grooved steel
ties, which in turn
are held by a concrete road-bed consisting of broken
stone and
cement, making spreading rails and loose ballast impossible.
A
large increase in capital was necessary for these improvements,
the
elimination of curves being the most laborious part,
requiring bridges,
cuttings, and embankments that dwarf the
Pyramids and would have made the
ancient Pharaohs open their
eyes; but with the low rate of interest on bonds,
the slight cost
of power, and great increase in business, the venture was
a
success, and we are now in sight of further advances that will
enable a
traveller in a high latitude moving west to keep pace
with the sun, and,
should he wish it, to have unending day."
CHAPTER V.
DR. CORTLANDT'S HISTORY CONTINUED.
"In marine transportation we
have two methods, one for freight
and another for passengers. The
old-fashioned deeply immersed
ship has not changed radically from the steam
and sailing vessels
of the last century, except that electricity has
superseded all
other motive powers. Steamers gradually passed through
the five
hundred-, six hundred-, and seven hundred-foot-long class,
with
other dimensions in proportion, till their length exceeded
one
thousand feet. These were very fast ships, crossing the
Atlantic
in four and a half days, and were almost as steady as houses,
in
even the roughest weather.
"Ships at this period of
their development had also passed
through the twin and triple screw stage to
the quadruple, all
four together developing one hundred and forty thousand
indicated
horse-power, and being driven by steam. This, of
course,
involved sacrificing the best part of the ship to her engines,
and
a very heavy idle investment while in port. Storage
batteries, with
plates composed of lead or iron, constantly
increasing in size, had reached a
fair state of development by
the close of the nineteenth
century.
"During the second decade of the twentieth century
the engineers
decided to try the plan of running half of a
transatlantic
liner's screws by electricity generated by the engines
for
driving the others while the ship was in port, this having been
a
success already on a smaller scale. For a time this plan
gave
great satisfaction, since it diminished the amount of coal to
be
carried and the consequent change of displacement at sea, and
enabled
the ship to be worked with a smaller number of men. The
batteries could
also, of course, be distributed along the entire
length, and placed where
space was least valuable.
"The construction of such huge
vessels called for much
governmental river and harbour dredging, and a ship
drawing
thirty-five feet can now enter New York at any state of the tide.
For ocean bars, the old system of taking the material out to sea
and
discharging it still survives, though a jet of water from
force-pumps
directed against the obstruction is also often
employed with quick
results. For river work we have discovered a
better method. All
the mud is run back, sometimes over a mile
from the river bank, where it is
used as a fertilizer, by means
of wire railways strung from poles.
These wire cables combine in
themselves the functions of trolley wire and
steel rail, and
carry the suspended cars, which empty themselves and
return
around the loop for another load. Often the removed
material
entirely fills small, saucer-shaped valleys or low places,
in
which case it cannot wash back. This improvement has ended
the
necessity of building jetties.
"The next improvement
in sea travelling was the 'marine spider.'
As the name shows, this is built
on the principle of an insect.
It is well known that a body can be carried
over the water much
faster than through it. With this in mind, builders
at first
constructed light framework decks on large water-tight wheels
or
drums, having paddles on their circumferences to provide a hold
on the
water. These they caused to revolve by means of machinery
on the deck,
but soon found that the resistance offered to the
barrel wheels themselves
was too great. They therefore made them
more like centipeds with large,
bell-shaped feet, connected with
a superstructural deck by ankle-jointed
pipes, through which,
when necessary, a pressure of air can be forced down
upon the
enclosed surface of water. Ordinarily, however, they go at
great
speed without this, the weight of the water displaced by the
bell
feet being as great as that resting upon them. Thus they
swing
along like a pacing horse, except that there are four rows of
feet
instead of two, each foot being taken out of the water as it
is swung
forward, the first and fourth and second and third rows
being worked
together. Although, on account of their size, which
covers several
acres, they can go in any water, they give the
best results on Mediterraneans
and lakes that are free from ocean
rollers, and, under favourable conditions,
make better speed than
the nineteenth-century express trains, and, of course,
going
straight as the crow flies, and without stopping, they reach
a
destination in considerably shorter time.
Some
passengers and express packages still cross the Atlantic on
'spiders,' but
most of these light cargoes go in a far pleasanter
and more rapid way.
The deep-displacement vessels, for heavy
freight, make little better speed
than was made by the same class
a hundred years ago. But they are also
run entirely by
electricity, largely supplied by wind, and by the tide
turning
their motors, which become dynamos while at anchor in any stream.
They therefore need no bulky boilers, engines, sails, or
coal-bunkers,
and consequently can carry unprecedentedly large
cargoes with comparatively
small crews. The officers on the
bridge and the men in the crow's
nest--the way to which is by a
ladder INSIDE the mast, to protect the climber
from the
weather--are about all that is needed; while disablement is
made
practically impossible, by having four screws, each with its own
set
of automatically lubricating motors.
"This change, like
other labour-saving appliances, at first
resulted in laying off a good many
men, the least satisfactory
being the first to go; but the increase in
business was so great
that the intelligent men were soon reemployed as
officers at
higher rates of pay and more interesting work than before,
while
they as consumers were benefited as much as any one else by
the
decreased cost of production and transportation.
"With a view to facilitating interchange still further, our
Government
has gradually completed the double coast-line that
Nature gave us in
part. This was done by connecting islands
separated from shore by
navigable water, and leaving openings for
ingress and exit but a few hundred
yards wide. The breakwaters
required to do this were built with
cribbing of incorrodible
metal, affixed to deeply driven metallic piles, and
filled with
stones along coasts where they were found in abundance or excess.
This, while clearing many fields and improving them for
cultivation,
provided just the needed material; since irregular
stones bind together
firmly, and, while also insoluble, combine
considerable bulk with
weight. South of Hatteras, where stones
are scarce, the sand dredged
from parts of the channel was filled
into the crib, the surface of which has
a concave metallic cover,
a trough of still water being often the best
barrier against the
passage of waves. This double coast-line has been a
great
benefit, and propelled vessels of moderate draught can range
in
smooth water, carrying very full loads, from Labrador to
the
Orinoco. The exits are, of course, protected by a line
of
cribbing a few hundred feet to seaward.
"The rocks
have been removed from all channels about New York and
other commercial
centres, while the shallow places have been
dredged to a uniform depth.
This diminishes the dangers of
navigation and considerably decreases the
speed with which the
tides rush through. Where the obstructions
consisted of reefs
surrounded by deep water, their removal with explosives
was easy,
the shattered fragments being allowed to sink to the bottom
and
remain there beneath the danger line.
"Many other
great works have also been completed. The canals at
Nicaragua have been
in operation many years, it having been found
best to have several sizes of
locks, and to use the large ones
only for the passage of large vessels.
The improved Erie and
Champlain Canals also enable ships four hundred feet
long to
reach New York from the Great Lakes via the Hudson
River.
"For flying, we have an aeroplane that came in when
we devised a
suitable motor power. This is obtained from very
light
paper-cell batteries that combine some qualities of the primary
and
secondary type, since they must first be charged from a
dynamo, after which
they can supply full currents for one hundred
hours--enough to take them
around the globe--while partly
consuming the elements in the cells. The
power is applied
through turbine screws, half of which are capable of
propelling
the flat deck in its inclined position at sufficient speed
to
prevent its falling. The moving parts have ball bearings
and
friction rollers, lubrication being secured automatically,
when
required, by a supply of vaseline that melts if any part
becomes
hot. All the framing is of thin but very durable
galvanized
aluminum, which has superseded steel for every purpose in
which
weight is not an advantage, as in the permanent way on railways.
The air ships, whose length varies from fifty to five hundred
feet, have
rudders for giving a vertical or a horizontal motion,
and several
strengthening keels that prevent leeway when turning.
They are entirely on
the principle of birds, maintaining
themselves mechanically, and differing
thus from the unwieldy
balloon. Starting as if on a circular railway,
against the wind,
they rise to a considerable height, and then, shutting off
the
batteries, coast down the aerial slope at a rate that
sometimes
touches five hundred miles an hour. When near the ground
the
helmsman directs the prow upward, and, again turning on full
current,
rushes up the slope at a speed that far exceeds the
eagle's, each drop of two
miles serving to take the machine
twenty or thirty; though, if the pilot does
not wish to soar, or
if there is a fair wind at a given height, he can remain
in that
stratum of the atmosphere by moving horizontally. He can
also
maintain his elevation when moving very slowly, and though
the
headway be entirely stopped, the descent is gradual on account of
the
aeroplane's great spread, the batteries and motors being
secured to the under
side of the deck.
"The motors are so light that they develop
two horse power for
every pound of their weight; while, to keep the frames
thin, the
necessary power is obtained by terrific speed of the
moving
parts, as though a steam engine, to avoid great pressure in
its
cylinders, had a long stroke and ran at great piston speed,
which,
however, is no disadvantage to the rotary motion of the
electric motor, there
being no reciprocating cranks, etc., that
must be started and stopped at each
revolution.
"To obviate the necessity of gearing to reduce
the number of
revolutions to those possible for a large screw, this member
is
made very small, and allowed to revolve three thousand times a
minute,
so that the requisite power is obtained with great
simplicity of mechanism,
which further decreases friction. The
shafts, and even the wires
connecting the batteries with the
motors, are made large and hollow.
Though the primary battery
pure and simple, as the result of great recent
advances in
chemistry, seems to be again coming up, the best
aeroplane
batteries are still of the combination- storage type. These
have
been so perfected that eight ounces of battery yield one horse
power
for six hours, so that two pounds of battery will supply a
horse power for
twenty-four hours; a small fifty-horse-power
aeroplane being therefore able
to fly four days with a battery
weight of but four hundred
pounds.
"Limestone and clarified acid are the principal
parts of these
batteries. It was known long ago that there was about as
much
imprisoned solar energy in limestone as in coal, but it was
only
recently that we discovered this way of releasing and using
it.
"Common salt plays an important part in many of our
chemical
reactions. By combining it with limestone, and treating
this
with acid jelly, we also get good results on raising to
the
boiling-point.
"However enjoyable the manly sport of
yachting is on water, how
vastly more interesting and fascinating it is for a
man to have a
yacht in which he can fly to Europe in one day, and with
which
the exploration of tropical Africa or the regions about the poles
is
mere child's play, while giving him so magnificent a
bird's-eye view!
Many seemingly insoluble problems are solved by
the advent of these
birds. Having as their halo the enforcement
of peace, they have in
truth taken us a long step towards heaven,
and to the co-operation and higher
civilization that followed we
shall owe much of the success of the great
experiment on Mother
Earth now about to be tried.
"Another change that came in with a rush upon the discovery of a
battery
with insignificant weight, compact form, and great
capacity, was the
substitution of electricity for animal power
for the movement of all
vehicles. This, of necessity brought in
good roads, the results
obtainable on such being so much greater
than on bad ones that a universal
demand for them arose. This
was in a sense cumulative, since the better
the streets and roads
became, the greater the inducement to have an electric
carriage.
The work of opening up the country far and near, by
straightening
and improving existing roads, and laying out new ones
that
combine the solidity of the Appian Way with the smoothness of
modern
asphalt, was largely done by convicts, working under the
direction of State
and Government engineers. Every State
contained a horde of these
unprofitable boarders, who, as they
formerly worked, interfered with honest
labour, and when idle got
into trouble. City streets had been paved by
the municipality;
country roads attended to by the farmers, usually
very
unscientifically. Here was a field in which convict labour
would
not compete, and an important work could be done. When once
this
was made the law, every year showed improvement, while the
convicts
had useful and healthful occupation.
"The electric phaetons,
as those for high speed are called, have
three and four wheels, and weigh,
including battery and motor,
five hundred to four thousand pounds. With
hollow but immensely
strong galvanically treated aluminum frames and
pneumatic or
cushion tires, they run at thirty-five and forty miles an hour
on
country roads, and attain a speed over forty on city streets, and
can
maintain this rate without recharging for several days. They
can
therefore roam over the roads of the entire hemisphere, from
the fertile
valley of the Peace and grey shores of Hudson Bay, to
beautiful Lake
Nicaragua, the River Plate, and Patagonia,
improving man by bringing him
close to Nature, while they combine
the sensations of coasting with the
interest of seeing the
country well.
"To recharge the
batteries, which can be done in almost every
town and village, two copper
pins attached to insulated copper
wires are shoved into smooth-bored
holes. These drop out of
themselves by fusing a small lead ribbon,
owing to the increased
resistance, when the acid in the batteries begins to
'boil,'
though there is, of course, but little heat in this, the
function
of charging being merely to bring about the condition in
which
part of the limestone can be consumed, the batteries
themselves,
when in constant use, requiring to be renewed about once a month.
A handle at the box seat turns on any part of the attainable
current, for
either going ahead or reversing, there being six or
eight degrees of speed
for both directions, while the steering is
done with a small
wheel.
"Light but powerful batteries and motors have also
been fitted on
bicycles, which can act either as auxiliaries for
hill-climbing
or in case of head wind, or they can propel the
machine
altogether.
"Gradually the width of the streets
became insufficient for the
traffic, although the elimination of horses and
the consequent
increase in speed greatly augmented their carrying
capacity,
until recently a new system came in. The whole width of
the
avenues and streets in the business parts of the city, including
the
former sidewalks, is given up to wheel traffic, an iron ridge
extending along
the exact centre to compel vehicles to keep to
the right. Strips of
nickel painted white, and showing a bright
phosphorescence at night, are let
into the metal pavement flush
with the surface, and run parallel to this
ridge at distances of
ten to fifteen feet, dividing each half of the avenue
into four
or five sections, their width increasing as they approach
the
middle. All trucks or drays moving at less than seven miles
an
hour are obliged to keep in the section nearest the building
line,
those running between seven and fifteen in the next,
fifteen to twenty-five
in the third, twenty-five to thirty-five
in the fourth, and everything faster
than that in the section
next the ridge, unless the avenue or street is wide
enough for
further subdivisions. If it is wide enough for only four
or
less, the fastest vehicles must keep next the middle, and limit
their
speed to the rate allowed in that section, which is marked
at every crossing
in white letters sufficiently large for him
that runs to read. It is
therefore only in the wide
thoroughfares that very high speed can be
attained. In addition
to the crank that corresponds to a throttle,
there is a gauge on
every vehicle, which shows its exact speed in miles per
hour, by
gearing operated by the revolutions of the wheels.
"The policemen on duty also have instantaneous kodaks mounted on
tripods,
which show the position of any carriage at half- and
quarter-second
intervals, by which it is easy to ascertain the
exact speed, should the
officers be unable to judge it by the
eye; so there is no danger of a
vehicle's speed exceeding that
allowed in the section in which it happens to
be; neither can a
slow one remain on the fast lines.
"Of
course, to make such high speed for ordinary carriages
possible, a perfect
pavement became a sine qua non. We have
secured this by the half-inch
sheet of steel spread over a
carefully laid surface of asphalt, with but
little bevel; and
though this might be slippery for horses' feet, it
never
seriously affects our wheels. There being nothing harder
than
the rubber ties of comparatively light drays upon it--for the
heavy
traffic is carried by electric railways under ground--it
will practically
never wear out.
"With the application of steel to the entire
surface, car-tracks
became unnecessary, ordinary wheels answering as well as
those
with flanges, so that no new tracks were laid, and finally the
car
companies tore up the existing ones, selling them in many
instances to the
municipalities as old iron. Our streets also
need but little cleaning;
neither is the surface continually
indented, as the old cobble-stones and
Belgian blocks were, by
the pounding of the horses' feet, so that the
substitution of
electricity for animal power has done much to solve the
problem
of attractive streets.
"Scarcely a ton of coal
comes to Manhattan Island or its vicinity
in a year. Very little of it
leaves the mines, at the mouths of
which it is converted into electricity and
sent to the points of
consumption by wire, where it is employed for all uses
to which
fuel was put, and many others. Consequently there is no
smoke,
and the streets are not encumbered with coal-carts; the
entire
width being given up to carriages, etc. The ground floors in
the
business parts are used for large warehouses, trucks running in
to
load and unload. Pedestrians therefore have sidewalks level
with the
second story, consisting of glass floors let into
aluminum frames, while all
street crossings are made on bridges.
Private houses have a front door
opening on the sidewalk, and
another on the ground level, so that
ladies paying visits or
leaving cards can do so in carriages. In
business streets the
second story is used for shops. In place of steel
covering,
country roads have a thick coating of cement and asphalt over
a
foundation of crushed stone, giving a capital surface, and have a
width
of thirty-three feet (two rods) in thinly settled
districts, to sixty-six
feet (four rods) where the population is
greater. All are planted with
shade and fruit trees, while the
wide driveways have one or two broad
sidewalks. The same rule of
making the slow-moving vehicles keep near
the outside prevails,
though the rate of increase in speed on approaching the
middle is
more rapid than in cities, and there is usually no
dividing
ridge. On reaching the top of a long and steep hill, if we
do
not wish to coast, we convert the motors into dynamos, while
running at
full speed, and so change the kinetic energy of the
descent into potential in
our batteries. This twentieth-century
stage-coaching is one of the
delights to which we are heirs,
though horses are still used by those that
prefer them.
We have been much aided in our material
progress by the facility
with which we obtain the metals. It was
observed, some time ago,
that when artesian and oil wells had reached a
considerable
depth, what appeared to be drops of lead and antimony came
up
with the stream. It finally occurred to a well-borer that if
he
could make his drill hard enough and get it down far enough,
keeping it
cool by solidified carbonic acid during the
proceeding, he would reach a
point at which most of the metals
would be viscous, if not actually molten,
and on being freed from
the pressure of the crust they would expand, and
reach the
surface in a stream. This experiment he performed near the
hot
geysers in Yellowstone Park, and what was his delight, on
reaching a
depth scarcely half a mile beyond his usual stopping-
place, to be rewarded
by a stream of metal that heralded its
approach by a loud explosion and a
great rush of superheated
steam! It ran for a month, completely filling
the bed of a
small, dried-up river, and when it did stop there were
ten
million tons in sight. This proved the feasibility of
the
scheme, and, though many subsequent attempts were less
successful, we
have learned by experience where it is best to
drill, and can now obtain
almost any metal we wish.
"'Magnetic eyes' are of great use
to miners and Civil engineers.
These instruments are something like the
mariner's compass, with
the sensitiveness enormously increased by galvanic
currents. The
'eye,' as it were, sees what substances are underground,
and at
what distances. It also shows how many people are in
an
adjoining room--through the magnetic properties of the iron in
their
blood--whether they are moving, and in what directions and
at what speed they
go. In connection with the phonograph and
concealed by draperies, it is
useful to detectives, who, through
a registering attachment, can obtain a
record of everything said
and done.
"Our political system
remains with but little change. Each State
has still two United States
Senators, though the population
represented by each representative has been
greatly increased, so
that the Senate has grown numerically much more than
the House.
It is the duty of each member of Congress to understand
the
conditions existing in every other member's State or district,
and the
country's interest always precedes that of party. We
have a
comprehensive examination system in the civil service, and
every
officeholder, except members of the Cabinet, retains his
office while
efficiently performing his duty, without regard to
politics. The
President can also be re-elected any number of
times. The Cabinet
members, as formerly, usually remain in
office while he does, and appear
regularly in Congress to defend
their measures.
"The
really rapid transit lines in New York are underground, and
have six tracks,
two being used for freight. At all stations the
local tracks rise
several feet towards the street and slope off
in both directions, while the
express tracks do this only at
stations at which the faster trains
stop. This gives the
passengers a shorter distance to descend or rise
in the
elevators, and the ascent before the stations aids the brakes
in
stopping, while the drop helps the motors to start the trains
quickly
in getting away.
"Photography has also made great strides,
and there is now no
difficulty in reproducing exactly the colours of the
object
taken.
"Telephones have been so improved that one
person can speak in
his natural voice with another in any part of the globe,
the wire
that enables him to hear also showing him the face of the
speaker
though he be at the antipodes. All telephone wires
being
underground and kept by themselves, they are not interfered with
by
any high-tension electric-light or power wires, thunderstorms,
or anything
else.
"Rain-making is another subject removed from the
uncertainties,
and has become an absolute science. We produce clouds
by
explosions in the atmosphere's heights and by surface air forced
by
blowers through large pipes up the side of a mountain or
natural elevation
and there discharged through an opening in the
top of a tower built on the
highest part. The aeriduct is
incased in a poor heat-conductor, so that
the air retains its
warmth until discharged, when it is cooled by expansion
and the
surrounding cold air. Condensation takes place and soon
serves
to start a rain.
"Yet, until the earth's axis is
straightened, we must be more or
less dependent on the eccentricities of the
weather, with
extremes of heat and cold, droughts and floods, which last are
of
course largely the result of several months' moisture held on
the
ground in the form of snow, the congestion being relieved
suddenly by
the warm spring rains.
"Medicine and surgery have kept pace
with other
improvements--inoculation and antiseptics, as already
seen,
rendering most of the germ diseases and formerly dreaded
epidemics
impotent; while through the potency of electrical
affinity we form wholesome
food-products rapidly, instead of
having to wait for their production by
Nature's slow processes.
"The metric system, now universal,
superseded the old-fashioned
arbitrary standards, so prolific of mistakes and
confusion, about
a century ago.
"English, as we have
seen, is already the language of 600,000,000
people, and the number is
constantly increasing through its
adoption by the numerous races of India,
where, even before the
close of the last century, it was about as important
as Latin
during the greatness of Rome, and by the fact that the
Spanish
and Portuguese elements in Mexico and Central and South
America
show a constant tendency to die out, much as the population
of
Spain fell from 30,000,000 to 17,000,000 during the
nineteenth
century. As this goes on, in the Western hemisphere, the
places
left vacant are gradually filled by the more
progressive
Anglo-Saxons, so that it looks as if the study of ethnology
in
the future would be very simple.
"The people with
cultivation and leisure, whose number is
increasing relatively to the
population at each generation, spend
much more of their year in the country
than formerly, where they
have large and well-cultivated country seats, parts
of which are
also preserved for game. This growing custom on the part
of
society, in addition to being of great advantage to the
out-of-town
districts, has done much to save the forests and
preserve some forms of game
that would otherwise, like the
buffalo, have become extinct.
"In astronomy we have also made tremendous strides.
The
old-fashioned double-convex lens used in telescopes became so
heavy as
its size grew, that it bent perceptibly from its own
weight, when pointed at
the zenith, distorting the vision; while
when it was used upon a star near
the horizon, though the glass
on edge kept its shape, there was too much
atmosphere between it
and the observed object for successful study. Our
recent
telescopes have, therefore, concave plate-glass mirrors,
twenty
metres in diameter, like those used for converging the sun's
rays
in solar engines, but with curves more mathematically exact,
which
collect an immense amount of light and focus it on a
sensitive plate or on
the eye of the observer, whose back is
turned to the object he is
studying. An electrical field also
plays an important part, the
electricity being as great an aid to
light as in the telephone it is to
sound. With these placed
generally on high mountain peaks, beyond the
reach of clouds, we
have enormously increased the number of visible stars,
though
there are still probably boundless regions that we cannot see.
These telescopes have several hundred times the power of the
largest
lenses of the nineteenth century, and apparently bring
Mars and Jupiter, when
in opposition, within one thousand and ten
thousand miles, respectively, so
that we study their physical
geography and topography; and we have good maps
of Jupiter, and
even of Saturn, notwithstanding their distance and
atmospheric
envelopes, and we are able to see the disks of
third-magnitude
stars.
"It seems as if, when we wish any
particular discovery or
invention, in whatever field, we had but to turn our
efforts in
its direction to obtain our desire. We seem, in fact, to
have
awakened in the scenes of the Arabian Nights; yet the
mysterious
genius which we control, and which dims Aladdin's lamp, is
the
gift of no fairy godmother sustained by the haze of dreams, but
shines
as the child of science with fadeless and growing
splendour, and may yet
bring us and our little planet much closer
to God.
"We
should indeed be happy, living as we do at this apex of
attained
civilization, with the boundless possibilities of the
future unfolding before
us, on the horizon of which we may fairly
be said to stand.
"We are freed from the rattling granite pavement of only a
century ago,
which made the occupant of an omnibus feel like a
fly inside of a drum; from
the domination of our local politics
by ignorant foreigners; and from country
roads that either filled
the eyes, lungs, and hair of the unfortunates
travelling upon
them with dust, or, resembling ploughed and fertilized
fields,
saturated and plastered them with mud. These miseries,
together
with sea-sickness in ocean travelling, are forever passed, and
we
feel that 'Excelsior!' is indeed our motto. Our new
and
increasing sources of power have so stimulated production
and
manufacturing that poverty or want is scarcely known; while
the
development of the popular demand, as a result of the supplied
need,
is so great that there is no visible limit to the
diversification of industry
or the possibilities of the arts.
"It may seem strange to
some that apparently so disproportionate
a number of inventions have been
made in the last century. There
are several reasons. Since every
discovery or advance in
knowledge increases our chance of obtaining more, it
becomes
cumulative, and our progress is in geometric instead
of
arithmetical ratio. Public interest and general appreciation
of
the value of time have also effectively assisted progress. At
the
beginning of each year the President, the Governors of the
States, and the
Mayors of cities publish a prospectus of the
great improvements needed,
contemplated, and under way within
their jurisdiction--it may be planning a
new boulevard, a new
park, or an improved system of sewers; and at the year's
end they
issue a resume of everything completed, and the progress
in
everything else; and though there is usually a great difference
between
the results hoped for and those attained, the effect is
good. The
newspapers publish at length the recommendations of
the Executives, and also
the results obtained, and keep up public
interest in all important
matters.
"Free to delve in the allurement and fascination of
science,
emancipated man goes on subduing Nature, as his Maker said
he
should, and turning her giant forces to his service in his
constant
struggle to rise and become more like Him who gave the
commandments and
showed him how he should go.
"Notwithstanding our strides in
material progress, we are not
entirely content. As the
requirements of the animal become fully
supplied, we feel a need for
something else. Some say this is
like a child that cries for the moon,
but others believe it the
awakening and craving of our souls. The
historian narrates but
the signs of the times, and strives to efface himself;
yet there
is clearly a void, becoming yearly more apparent,
which
materialism cannot fill. Is it some new subtle force for
which
we sigh, or would we commune with spirits? There is, so far
as
we can see, no limit to our journey, and I will add, in closing,
that,
with the exception of religion, we have most to hope from
science."
CHAPTER VI.
FAR-REACHING PLANS.
Knowing that the rectification of the earth's axis was
satisfactorily
begun, and that each year would show an increasing
improvement in climate,
many of the delegates, after hearing
Bearwarden's speech, set out for their
homes. Those from the
valley of the Amazon and the eastern coast of
South America
boarded a lightning express that rushed them to Key West at
the
rate of three hundred miles an hour. The railroad had
six
tracks, two for through passengers, two for locals, and two
for
freight. There they took a "water-spider," six hundred feet
long
by three hundred in width, the deck of which was one hundred
feet
above the surface, which carried them over the water at the rate
of a
mile a minute, around the eastern end of Cuba, through
Windward Passage, and
so to the South American mainland, where
they continued their journey by
rail.
The Siberian and Russian delegates, who, of course,
felt a keen
interest in the company's proceedings, took a
magnetic
double-ender car to Bering Strait. It was eighteen feet
high,
one hundred and fifty feet long, and had two stories. The
upper,
with a toughened glass dome running the entire length, descended
to
within three feet of the floor, and afforded an unobstructed
view of the
rushing scenery. The rails on which it ran were ten
feet apart, the
wheels being beyond the sides, like those of a
carriage, and fitted with ball
bearings to ridged axles. The
car's flexibility allowed it to follow
slight irregularities in
the track, while the free, independent wheels gave
it a great
advantage in rounding curves over cars with wheels and axle
in
one casting, in which one must slip while traversing a greater
or
smaller arc than the other, except when the slope of the tread
and the
centrifugal force happen to correspond exactly. The fact
of having its
supports outside instead of underneath, while
increasing its stability, also
enabled the lower floor to come
much nearer the ground, while still the
wheels were large.
Arriving in just twenty hours, they ran across on an
electric
ferry-boat, capable of carrying several dozen cars, to East
Cape,
Siberia, and then, by running as far north as possible, had a
short
cut to Europe.
The Patagonians went by the all-rail
Intercontinental Line,
without change of cars, making the run of ten thousand
miles in
forty hours. The Australians entered a flying machine, and
were
soon out of sight; while the Central Americans and members from
other
States of the Union returned for the most part in their
mechanical
phaetons.
"A prospective improvement in travelling," said
Bearwarden, as he
and his friends watched the crowd disperse, "will be when
we can
rise beyond the limits of the atmosphere, wait till the
earth
revolves beneath us, and descend in twelve hours on the
other
side."
"True," said Cortlandt, "but then we can
travel westward only,
and shall have to make a complete circuit when we wish
to go
east."
A few days later there was a knock at
President Bearwarden's
door, while he was seated at his desk looking over
some papers
and other matters. Taking his foot from a partly opened
desk
drawer where it had been resting, he placed it upon the handle of
a
handsome brass-mounted bellows, which proved to be
articulating, for, as he
pressed, it called lustily, "Come in!"
The door opened, and in walked
Secretary of State Stillman,
Secretary of the Navy Deepwaters, who was
himself an old sailor,
Dr. Cortlandt, Ayrault. Vice-President Dumby, of
the T. A. S.
Co., and two of the company's directors.
"Good-morning," said Bearwarden, as he shook hands with
his
visitors. "Charmed to see you."
"That's a great
invention," said Secretary Stillman, examining
the bellows. "We must
get Congress to make an appropriation for
its introduction in the department
buildings in Washington. You
have no idea how it dries my throat to be
all the time shouting,
'Come in!'"
"Do you know,
Bearwarden," said Secretary Deepwaters, "I'm afraid
when we have this
millennium of climate every one will be so well
satisfied that our friend
here (pointing to Secretary Stillman
with his thumb) will have nothing to
do."
"I have sometimes thought some of the excitement will
be gone,
and the struggle of the 'survival of the fittest' will
become
less problematical," said Bearwarden.
"The earth
seems destined to have a calm old age," said
Cortlandt, "unless we can look
to the Cabinet to prevent it."
"This world will soon be a
dull place. I wish we could leave it
for a change," said Ayrault.
"I don't mean forever, of course,
but just as people have grown tired of
remaining like plants in
the places in which they grew. Alan has been a
caterpillar for
untold ages; can he not become the
butterfly?"
"Since we have found out how to straighten the
axis," said
Deepwaters, "might we not go one better, and improve the orbit
as
well?--increase the difference between aphelion and perihelion,
and
give those that still like a changing climate a chance, while
incidentally we
should see more of the world--I mean the solar
system--and, by enlarging the
parallax, be able to measure the
distance of a greater number of fixed
stars. Put your helm hard
down and shout 'Hard-a-lee!' You see,
there is nothing simpler.
You keep her off now, and six months hence you let
her luff."
"That's an idea!" said Bearwarden. "Our
orbit could be enough
like that of a comet to cross the orbits of both Venus
and Mars;
and the climatic extremes would not be inconvenient. The
whole
earth being simultaneously warmed or cooled, there would be
no
equinoctials or storms resulting from changes on one part of
the
surface from intense heat to intense cold; every part would have
a
twelve-hour day and night, and none would be turned towards or
from the sun
for six months at a time; for, however eccentric the
orbit, we should keep
the axis absolutely straight. At
perihelion there would simply be
increased evaporation and clouds
near the equator, which would shield those
regions from the sun,
only to disappear again as the earth
receded.
"The only trouble," said Cortlandt, "is that we
should have no
fulcrum. Straightening the axis is simple enough, for we
have
the attraction of the sun with which to work, and we have but
to
increase it at one end while decreasing it at the other, and
change
this as the poles change their inclination towards the
sun, to bring it
about. If a comet with a sufficiently large
head would but come along
and retard us, or opportunely give us a
pull, or if we could increase the
attraction of the other planets
for us, or decrease it at times, it might be
done. If the force,
the control of which was discovered too late to
help us
straighten the axis, could be applied on a sufficiently
large
scale; if apergy----"
"I have it!" exclaimed
Ayrault, jumping up. "Apergy will do it.
We can build an airtight
projectile, hermetically seal ourselves
within, and charge it in such a way
that it will be repelled by
the magnetism of the earth, and it will be forced
from it with
equal or greater violence than that with which it is
ordinarily
attracted. I believe the earth has but the same relation
to
space that the individual molecule has to any solid, liquid, or
gaseous
matter we know; and that, just as molecules strive to fly
apart on the
application of heat, this earth will repel that
projectile when electricity,
which we are coming to look upon as
another form of heat, is properly
applied. It must be so, and it
is the manifest destiny of the race to
improve it. Man is a
spirit cursed with a mortal body, which glues him
to the earth,
and his yearning to rise, which is innate, is, I believe, only
a
part of his probation and trial."
"Show us how it can
be done," shouted his listeners in chorus.
"Apergy is and
must be able to do it," Ayrault continued.
"Throughout Nature we find a
system of compensation. The
centripetal force is offset by the
centrifugal; and when,
according to the fable, the crystal complained of its
hard lot in
being unable to move, while the eagle could soar through
the
upper air and see all the glories of the world, the bird replied,
'My
life is but for a moment, while you, set in the rock, will
live forever, and
will see the last sunrise that flashes upon the
earth.'
"We know that Christ, while walking on the waves, did not sink,
and that
he and Elijah were carried up into heaven. What became
of their
material bodies we cannot tell, but they were certainly
superior to the
force of gravitation. We have no reason to
believe that in miracles any
natural law was broken, or even set
aside, but simply that some other law,
whose workings we do not
understand, became operative and modified the law
that otherwise
would have had things its own way. In apergy we
undoubtedly have
the counterpart of gravitation, which must exist, or
Nature's
system of compensation is broken. May we not believe that
in
Christ's transfiguration on the mount, and in the appearance of
Moses
and Elias with him--doubtless in the flesh, since otherwise
mortal eyes could
not have seen them--apergy came into play and
upheld them; that otherwise,
and if no other modification had
intervened, they would have fallen to the
ground; and that apergy
was, in other words, the working principle of those
miracles?"
"May we not also believe," added Cortlandt, "that
in the
transfiguration Christ's companions took the substance of
their
material bodies--the oxygen, hydrogen, nitrogen, and
carbon--from
the air and the moisture it contained; for, though
spiritual
bodies, be their activity magnetic or any other, could of
course
pass the absolute cold and void of space without being affected,
no
mortal body could; and that in the same manner Elijah's body
dissolved into
air without the usual intervention of
decomposition; for we know that, though
matter can easily change
its form, it can never be
destroyed."
All assented to this, and Ayrault
continued: "If apergy can
annul gravitation, I do not see why it should
not do more, for to
annul it the repulsion of the earth that it produces must
be as
great as its attraction, unless we suppose gravitation for the
time
being to be suspended; but whether it is or not, does not
affect the result
in this case, for, after the apergetic
repulsion is brought to the degree at
which a body does not fall,
any increase in the current's strength will cause
it to rise, and
in the case of electro-magnets we know that the attraction
or
repulsion has practically no limit. This will be of
great
advantage to us," he continued, "for if a projectile could move
away
from the earth with no more rapid acceleration than that
with which it
approaches, it would take too long to reach the
nearest planet, but the
maximum repulsion being at the start by
reason of its proximity to the
earth--for apergy, being the
counterpart of gravitation, is subject to
Newton's and Kepler's
laws--the acceleration of a body apergetically charged
will be
greatest at first. Two inclined planes may have the same
fall,
but a ball will reach the bottom of one that is steepest near
the
top in less time than on any other, because the maximum
acceleration
is at the start. We are all tired of being stuck to
this cosmical
speck, with its monotonous ocean, leaden sky, and
single moon that is useless
more than half the time, while its
size is so microscopic compared with the
universe that we can
traverse its great circle in four days. Its
possibilities are
exhausted; and just as Greece became too small for
the
civilization of the Greeks, and as reproduction is growth beyond
the
individual, so it seems to me that the future glory of the
human race lies in
exploring at least the solar system, without
waiting to become
shades."
"Should you propose to go to Mars or Venus?" asked
Cortlandt.
"No," replied Ayrault, "we know all about Mars;
it is but one
seventh the size of the earth, and as the axis is inclined
more
than ours, it would be a less comfortable globe than this; while,
as
our president here told us in his T. A. S. Company's report,
the axis of
Venus is inclined to such a degree that it would be
almost uninhabitable for
us. It would be as if colonists tried
to settle Greenland, or had come
to North America during its
Glacial period. Neither Venus nor Mars
would be a good place
now."
"Where should you propose to
go?" asked Stillman.
"To Jupiter, and, if possible, after
that to Saturn," replied
Ayrault; "the former's mean distance from the sun is
480,000,000
miles; but, as our president showed us, its axis is so
nearly
straight that I think, with its internal warmth, there will
be
nothing to fear from cold. Though, on account of the
planet's
vast size, objects on its surface weigh more than twice as
much
as here, if I am able to reach it by means of apergy, the same
force
will enable me to regulate my weight. Will any one go
with
me?"
"Splendid!" said Bearwarden. "If Mr.
Dumby, our vice-president,
will temporarily assume my office, nothing will
give me greater
pleasure."
"So will I go, if there is
room for me," said Cortlandt. "I will
at once resign my place as
Government expert, and consider it the
grandest event of my
life."
"If I were not afraid of leaving Stillman here to his
own
devices, I'd ask for a berth as well," said Deepwaters.
"I am afraid," said Stillman, "if you take any more, you will
be
overcrowded."
"Modesty forbids his saying," said
Deepwaters, "that it wouldn't
do for the country to have all its eggs in one
basket."
"Are you not afraid you will find the surface hot,
or even
molten?" asked Vice-President Dumby. "With its
eighty-six
thousand five hundred mile diameter, the amount of
original
internal heat must have been terrific."
"No,
said Cortlandt, "it cannot be molten, or even in the least
degree luminous,
for, if it were, its satellites would be visible
when they enter its shadow,
whereas they entirely disappear."
"I do not believe
Jupiter's surface is even perceptibly warm,"
said Bearwarden. "We know
that Algol, known to the ancients as
the 'Demon Star,' and several other
variable stars, are
accompanied by a dark companion, with which they revolve
about a
common centre, and which periodically obscures part of
their
light. Now, some of these non-luminaries are nearly as large
as
our sun, and, of course, many hundred times the size of Jupiter.
If
these bodies have lost enough heat to be invisible, Jupiter's
surface at
least must be nearly cold."
"In the phosphorescence of
seawater," said Cortlandt, "and in
other instances in Nature, we fi