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Fables of Infidelity and Facts of Faith Part 30

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"I. External causes of error, comprehending such as depend on external uncontrollable circ.u.mstances; such as fluctuations of weather, which disturb the amount of refraction from its tabulated value, and being reducible to no fixed laws, induce uncertainty to the amount of their own possible magnitude.

"II. Errors of observation; such as arise for instance from inexpertness, defective vision, slowness in seizing the exact instant of the occurrence of a phenomenon, or precipitancy in antic.i.p.ating it; from atmospheric indistinctness, insufficient optical power in the instrument, and the like.

"III. The third, and by far the most numerous cla.s.s of errors, arise from causes which may be deemed instrumental, and which may be divided into two cla.s.ses.

"The first arises from an instrument not being what it professes to be, which is _error of workmans.h.i.+p_. Thus if an axis or pivot, instead of being as it ought, exactly cylindrical, be slightly flattened or elliptical--if it be not exactly concentric with the circle which it carries--if this circle so called be in reality not exactly circular--or not in one plane--if its divisions, intended to be precisely equidistant, shall be in reality at unequal intervals--_and a hundred other things of the same sort_.

"The other subdivision of instrumental errors comprehends such as arise from an instrument not being placed in the position it ought to have; and from those of its parts which are made purposely movable not being properly disposed, _inter se_.

These are _errors of adjustment_. Some are unavoidable, as they arise from a general unsteadiness of the soil or building in which the instruments are placed.[334] Others again are consequences of imperfect workmans.h.i.+p; as when an instrument, once well adjusted, will not remain so. But the most important of this cla.s.s of errors arise from the non-existence of natural indications other than those afforded by astronomical observations themselves, whether an instrument has, or has not, the exact position with respect to the horizon, and the cardinal points, etc., which it ought to have, properly to fulfill its object.

"Now, with regard to the first two cla.s.ses of error, it must be observed, that in so far as they can not be reduced to known laws, and thereby become the subjects of calculation and due allowance, _they actually vitiate in their full extent the results of any observations in which they subsist_. With regard to errors of adjustment, not only the possibility, _but the certainty of their existence in every imaginable form, in all instruments_, must be contemplated. _Human hands or machines never formed a circle, drew a straight line, or executed a perpendicular, nor ever placed an instrument in perfect adjustment, unless accidentally, and then only during an instant of time._"

The bearing of these important and candid admissions of error in astronomical observations upon all kinds of other observations made by mortal eyes, and with instruments framed by human hands, in every department of science, is obvious. No philosophical observation or experiment is absolutely accurate, or can possibly be more than tolerably near the truth. The error of a thousandth part of an inch in an instrument will multiply itself into thousands, and millions of miles, according to the distance of the object, or the profundity of the calculation. Our faith in the absolute infallibility of scientific observers, and consequently in the absolute certainty of science, being thus rudely upheaved from its very foundations by Sir John Herschel's crowbar, we are prepared to learn that scientific men have made errors great and numerous.

To begin at home, with our own little globe, where certainty is much more attainable than among distant stars, we have seen that astronomers of the very highest rank are by no means agreed as to its diameter. Its precise form is equally difficult to determine. Newton showed that an ellipsoid of revolution should differ from a sphere by a compression of 1/230. The mean of a number of varying measurements of arcs, in five different places, would give 1/299. The pendulum measurement differs very considerably from both, and "no two sets of pendulum experiments give the same result."[335] The same liability to error, and uncertainty of the actual truth, attends the other modes of ascertaining this fundamental measurement. A very small error here will vitiate all other astronomical calculations; for the earth's radius, and the radius of its...o...b..t, are the foot-rule and surveyor's chain with which the astronomer measures the heavens. But this last and most used standard is uncertain; and of the nine different estimates, it is certain that eight must be wrong; and probably that all are erroneous. For example, Encke, in 1761, gives the earth's distance from the sun at

95,141,830 Encke, in 1769, 95,820,610 Lacaille, 76,927,900 Henderson, 90,164,110 Gillies and Gould, 96,160,000 Mayer, 104,097,100 Le Verrier, 91,066,350 Sir John Herschel, 91,718,000 Humboldt, 82,728,000[336]

Here now is the fundamental standard measure of astronomy; and nine first-cla.s.s astronomers are set to determine its length; but their measurements range all the way from seventy-seven to one hundred and four millions of miles--a difference of nearly one-fourth. Why the old-fas.h.i.+oned finger and thumb measure used before the carpenter's two-foot rule was invented never made such discrepancies; it could always make a foot within an inch more or less; but our scientific measurers, it seems, can not guess within two inches on the foot.

Their smaller measurements are equally inaccurate. Lias says the Aurora Borealis is only two and a half miles high; Hood and Richardson make its height double that, or five miles; Olmsted and Twining run it up to forty-two, one hundred, and one hundred and sixty miles![337] When they are thus inaccurate in the measurement of a phenomenon so near the earth, how can we believe in the infallibility of their measurements of the distances of the stars and the nebulae in the distant heavens?

The moon is the nearest to us of all the heavenly bodies, and exercises the greatest influence of any, save the sun, upon our crops, s.h.i.+ps, health and lives, and consequently has had a larger share of astronomical attention than any other celestial body. But the most conflicting statements are made by astronomers regarding her state and influences. There is no end to the controversy whether the moon influences the weather; though one would think that question, being rather a terrestrial one, could easily be decided. Schwabe says Herschel is wrong in saying that the years of most solar spots were fruitful; but Wolf looks up the Zurich meteorological tables, and confirms Herschel.

In _Ferguson's Astronomy_, the standard text-book of its day, we are informed that "Some of her mountains (the moon's) by comparing their height with her diameter, are found to be three times higher than the highest hills on earth." They would thus be over fifteen miles high. But Sir Wm. Herschel a.s.sures us that "The generality do not exceed half a mile in their general elevation." _Transactions of the Royal Society_, May 11, 1780. Beer and Madler have measured thirty-nine whose height they a.s.sure us exceed Mont Blanc. But M. Gussew, of the Imperial Observatory at Wilna, describes to us, "a mountain ma.s.s in the form of a meniscus lens, rising in the middle to a height of seventy-nine English miles."[338] As this makes the moon lopsided, with the heavy side toward the earth, the question of an atmosphere, and of the moon's inhabitability is reopened; and the discussion seems to favor the man in the moon; only he keeps on the other side always, so that we can not see him.

The best astronomers have gravely calculated the most absurd problems--for instance the projection of meteorites from lunar volcanoes; Poisson calculated that they would require an initial velocity of projection of seven thousand nine hundred and ninety-five feet per second; others demanded eight thousand two hundred and eighty-two; Olbers demanded fourteen times as much; but La Place, the great inventor of the nebular theory, after thirty years' study fixed it definitely at seven thousand eight hundred and sixty-two! It appears that the absurdity of the discharging force of a part greater than the attracting force of the whole never occurred to him.[339]

This same La Place supposed, that he could have placed the moon in a much better position for giving light than she now occupies; and that this was the only object of her existence. As this was not done he argued that her waxing and waning light was a proof that she was not located by an Omniscient Creator. He says he would have placed her in the beginning in opposition to the sun, in the plane of the ecliptic, and about four times her present distance from us, with such a motion as would ever maintain that position, thus securing full moon from sunset to sunrise, without possibility of eclipse. But Lionville demonstrates that "if the moon had occupied at the beginning the position a.s.signed her, by the ill.u.s.trious author of the _Mecanique Celeste_, she could not have maintained it but a very short time."[340] In short, La Place's hypothetical calculations generally have proved erroneous when applied to any existing facts; and we have no reason to attach more value to his nebular theory calculations.

The sun is the princ.i.p.al orb of our system, and by far the most conspicuous, and the most observed of all observers, astronomers included. But we have seen already how contradictory their measurements of his distance, and their observations of the influence of his spots.

Far more conflicting are the theories as to his const.i.tution, of which indeed we may truly say very little was known before the application of photography and the spectroscope to heliography within the last seven years. One astronomer fixed the period of his rotation at twenty-five days, fourteen hours, and eight minutes; another at twenty-six days, forty-six minutes; another at twenty-four days, twenty-eight minutes.[341]

In regard to the sun's heat, a matter fundamental to the nebular theory, the calculations differ widely, and some of them must be grossly erroneous. M. Vicaire called the attention of the French Academy, at a recent meeting, to this unsatisfactory condition of science. Father Secchi estimates it at eighteen million Fahrenheit; while Pouillet says it ranges from two thousand six hundred and sixty-two to three thousand two hundred and one; and others range from two hundred thousand downward. The most singular thing is that these results are derived from observations or radiations made by apparatus identical in principle.[342] But Waterston calculates the temperature of the solar surface at above ten, and probably twelve million Fahrenheit.[343]

Now what feeds these enormous fires? The old opinion of astronomy, that the sun was a ma.s.s of fire, was a.s.sailed by Sir Wm. Herschel, who maintained that it was in the condition of a perpetual magnetic storm.

This notion was altered into the belief of a central dark body, surrounded by a stratum of clouds, outside of which is a photosphere of light and heat; which some made one thousand five hundred miles in depth, others four thousand. Outside of this was another layer of rose-colored clouds. To this theory Arago, Sir John Herschel and Humboldt a.s.sented. But Le Verrier declares that the facts observed during late eclipses are contrary to this theory, and a new theory is slow in process of construction, to be demolished in its turn by later observations.[344]

One of the most recent theories is that the fuel is furnished by a stream of meteorites, planetoids, and comets, falling in by the power of attraction, and being speedily converted into gas flames; a process the very reverse of the theory of the evolution of the solid celestial bodies from gas. But it is pretty evident from these conflicting theories that n.o.body knows anything certainly as to the materials of the sun, or the fuel which feeds his flames. But if the very best astronomers do not know of what he is made, is it not too great a demand upon our credulity to ask us to believe that they can tell how he was made?

The size, density, and distances of the planets, which form such essential elements in the calculations of the nebular theory of evolution, are equally uncertain. Ten or twelve years ago Mercury was believed to be nearly three times as dense as the earth (2.94); and the theory of evolution was partly based upon this a.s.sumed fact. But Hausen now finds that it is not half so dense; that, as compared with the earth, it is only 1.22; and that its ma.s.s is less than half (5/12) of what had been confidently calculated.[345] Corrections of the ma.s.ses and densities of other planets are also offered.

Still wider differences prevail in calculating the velocities of these bodies; velocities _calculated_ and found to correspond with the theory of evolution. Bianchini gives the period of the rotation of Venus at twenty-four days, eight hours; but Schroeter says it is not as many hours as Bianchini gives days; that it is only twenty-three hours and twenty minutes. Sir Wm. Herschel can not tell which is right, or whether both are wrong.[346]

From such imperfect and erroneous calculations astronomers have deduced what they called a _law_, which holds the same place in nature that the Blue Laws of Connecticut maintain in history; and which like them have imposed upon the credulous. t.i.tius and Bode imagined that they had discovered that, "When the distances of the planets are examined, it is found that they are almost all removed from each other by distances which are in the same proportion as their magnitudes increase." And this _law_ played an important part in introducing the theory of evolution, which, it was alleged, exactly corresponded with such an arrangement.

But more accurate calculations and recent discoveries have dissipated the supposed order of progression. Humboldt says of it, it is "a law which scarcely deserves this name, and which is called by Lalande and Delambre a play of numbers; by others a help for the memory. * * * In reality the distances between Jupiter, Saturn, and Ura.n.u.s approximate very closely to the duplication. Nevertheless, since the discovery of Neptune, which is much too near Ura.n.u.s, the defectiveness in the progression has become strikingly evident." And Olbers rejects it, as "contrary to the nature of all truths which merit the name of laws; it agrees only approximately with observed facts in the case of most planets, and what does not appear to have been once observed, not at all in the case of Mercury. It is evident that the series, 4, 4+3, 4+6, 4+12, 4+48, 4+96, 4+192, with which the distances should correspond, is not a continuous series at all. The number which precedes 4+3 should not be 4; _i. e._, 4+0, but 4+3/2. Therefore between 4 and 4+3 there should be an infinite number, or as Wurm expresses it, for _n_=1, there is obtained from 4+2^{n-2}.3; not 4, but 5-1/2."[347] Thus this so-called law is erroneous in both ends, and defective in the middle.

Finally it has been utterly abolished by the discovery of the planet Vulcan, which does not correspond to any such law.[348] If the theory of evolution then corresponds to Bode's law, as its advocates alleged, it corresponds to a myth.

About the nebulae which have played so large a part in the atheistic world building, our astronomers are utterly at variance. Sir John Herschel says they are far away beyond the stars in s.p.a.ce. But the Melbourne astronomer, M. Le Seur, suggests that the star Eta and the nebulous matter are neighbors; that the nebulous matter formerly around it, which has recently disappeared, while the star has blazed up into flames, is being absorbed and digested by the star. This has happened before, thirty years ago, to that star. Why may not our sun also absorb and burn up nebulae. But if so, what becomes of the rings of the nebular theory?

The light of the stars is almost the only medium through which we can observe them, and it would naturally be supposed that astronomers would be at pains to have clear views of light. But the most surprising differences of statement regarding it exist among the very first astronomers. They do not see it alike. Herschel says a Herculis is red; Struve says it is yellow. They dispute about its nature, motion, and quant.i.ty. Some astronomers believe the sun to be the great source of light, at least to our system. But Nasmyth informs the Royal Astronomical Society that "the true source of latent light is not in the solar orb, but in s.p.a.ce itself, and that the grand function of the sun is to act as an agent for the bringing forth into existence the luciferous element, which element I suppose to be diffused throughout the boundless regions of s.p.a.ce."[349] The nature of light is however still as great a mystery as when Job demanded, "Where is the way where light dwelleth?" The undulatory theory of light, now generally accepted, a.s.sumes that light is caused by the vibrations of the ether in a plane transverse to the direction of propagation. In order to transmit motions of this kind, the parts of the luminiferous medium must resist compression and distortion, like those of an elastic solid body; its transverse elasticity being great enough to transmit one of the most powerful kinds of physical energy, with a speed in comparison with which that of the swiftest planets of our system is inappreciable, and its longitudinal elasticity immensely greater--both of these elasticities being at the same time so weak as to offer no perceptible resistance to the motion of the planets, and other visible bodies.[350]

Is the velocity of light uniform? Or, if variable, is the variation caused by the original difference of the projectile force of the different suns, stars, comets, etc.? or by the different media through which it pa.s.ses? Arago alleges that light moves more rapidly through water than through air; but Brequet a.s.serts that the fact is just the reverse.[351] Both admit that its velocity varies with the medium.

Jacobs alleges that during the trigonometrical survey of India he observed the _extinction_ of light reflected through sixty miles of horizontal atmosphere.[352] How, then, can astronomers make any reliable calculations of the velocity of light reaching us through regions of s.p.a.ce filled with unknown media? Newton calculated the velocity of light at one hundred and fifty-five thousand five hundred and fifty-five and five-ninth miles a second; but Encke shows he erred thirty per cent.

Other eminent astronomers make the time of the pa.s.sage of light from the sun all the way from eleven to fourteen minutes, instead of Newton's seven or eight. Busch reckons its velocity at one hundred and sixty-seven thousand nine hundred and seventy-six miles; Draper one hundred and ninety-two thousand; Struve two hundred and fifteen thousand eight hundred and fifty-four. Wheatstone alleges that electric light travels at the rate of two hundred and eighty-eight thousand miles a second; but Frizeau's calculations and measurements give only one hundred and sixty-seven thousand five hundred and twenty-eight for the light of Oxygen and hydrogen.[353] Thus we have a variation of one hundred and twenty thousand miles a second in all calculations of sidereal distances. Humboldt tries to reconcile these differences by the suggestion, that no one will deny, that lights of different magnetic or electric processes may have different velocities; a fact which throws all sidereal astronomy into inextricable confusion, and sets aside all existing time tables on sidereal railroads.

They are no more agreed as to its composition after it reaches us than as to its velocity. Newton taught that it consisted of seven colors; Wallaston denies more than four; Brewster reduces the number to three--red, yellow, and blue. Newton measures the yellow and violet, and finds them as forty to eighty. Fraunhofer makes the proportion twenty-seven to one hundred and nine. Wallaston's spectrum differs from both. Field says, "No one has ventured to alter either estimate, and no one who is familiar with the spectrum will put much faith in any measurement of it, by whosoever and with what care soever made."[354] He says white light is composed of five parts red, three yellow, and eight blue; which differs wholly from Brewster, who gives it three parts red, five yellow, and two of blue.

Equally wild are their calculations of the quant.i.ty of light emitted by particular stars. Radeau calculates Vulcan's light at 2.25 that of Mercury; Lias, from the same observations, at 7.36, nearly three times as much.[355] Sir John Herschel calculates that _Alpha Centauri_ emits more light than the sun; that the light of Sirius is four times as great, and its parallax much less; so that by such a calculation Sirius would have an intrinsic splendor sixty-three times that of the sun. But Wallaston only calculates his light at one-fourth of this amount; and Steinheil makes it only one two-hundredth part of the former estimate.[356]

Astronomers have lately been comforting the world with the a.s.surance that we have little to fear from comets; that the superst.i.tious fear of the comets prevalent in the past was ill founded, because comets are so very thin that we might pa.s.s through one without its breaking up anything. But that, as Princ.i.p.al Leitch shows us, is not the only question. "We know that the most deadly miasmata are so subtle that it is impossible to detect them by any chemical tests, and a very homeopathic dose of a comet, in addition to the elements of our own atmosphere, might produce the most fatal effects."[357]

The phenomena indicative of cosmical processes are out of the range of astronomical observation. We can only observe those indicated by light, and gravitation; but how small a proportion of the formative processes of our own world indicate themselves by these two cla.s.ses of phenomena!

How few of the chemical, vegetative, animal, moral, social, or even geological processes, now progressing under our own observation, could give us notice of their existence by the two channels of light and gravitation? How, then, can philosophers ever learn the process of building worlds like our own in which many other powers are at work?

Astronomers are not all agreed as to the existence of a cosmical ether; nor do those who a.s.sert it agree as to its properties. What is its nature, density, power of refraction and reflection of light, and resistance to motion? What is its temperature? Is it uniform, or like our atmosphere, ever varying? These are manifestly questions indispensable to be answered before any theory of the development of worlds is even conceivable. But of the properties of this all-extending cosmical atmosphere, which is the very breath of life of the development theory, astronomers present the most conflicting statements. Professor Vaughan says, "If such a body exists, it is beyond our estimation of all that is material. It has no weight, according to our idea of weight; no resistance, according to our idea of calculating resistance by mechanical tests; no volume, on our views of volume; no chemical activity, according to our experimental and absolute knowledge of chemical action. In plain terms, it presents no known re-agency by which it can be isolated from surrounding or intervening matter."[358] Or, in plainer terms, we know nothing about it.

The only fact about it which astronomers have ventured to specify and calculate is its temperature; for upon this all the power of the development world-making process depends. But they are very far from any agreement; indeed, they are much farther apart than the equator from the poles. Stanley finds the temperature of absolute s.p.a.ce--58; Arago--70; Humboldt--85; Herschel--132; Saigey--107; Pouillet, to be exact to a fraction--223-6/10 below the freezing point; though when it gets to be so cold as that one would think he would hardly stay out of doors to measure fractions of a degree. But Poisson thinks he is over 200 too cold, and fixes the temperature accurately, in his own opinion, 8-6/10.

Moreover, he alleges that there is no more uniformity in the temperature of the heavens than in that of our own atmosphere, owing to the unequal radiations of heat from the stars; and that the earth, and the whole solar system, receive their internal heat from without, while pa.s.sing through hot regions of s.p.a.ce.[359]

From this chaos of conflicting a.s.sertions of unknown facts the theory of development develops itself. Its fundamental postulate is the difference of temperature between the nebulae and the surrounding s.p.a.ce.

But the fact is that n.o.body knows what is the temperature of either s.p.a.ce or nebulae, nor is anybody likely ever to know enough of either to base any scientific theory upon. Astronomy will never teach men how to make worlds; nor is it of the least consequence that it does not; since we could not make them, even if we knew how.

From these specimens of the errors and contradictions of the best astronomers, the teachers upon whose accuracy we depend for our faith in science, we can see, that though the Pope and the Infidel savans may claim infallibility, yet after all the savant is just as infallible as the Pope, viz: he is right when he is right, and he is wrong when he is wrong, and that happens frequently and common folks can not always tell when. There is no such thing, then, as infallible science upon faith, in which I can venture to reject G.o.d's Bible, and risk my soul's salvation.

Science is founded on faith in very fallible men.

3. _Geology_, one of the most recent of the sciences, and in the hands of Infidel nurses one of the most noisy, has been supposed to be anti-Christian. The supposition is utterly unfounded. Such of its facts as have been well ascertained have demonstrated the being, wisdom, and goodness of an Almighty Creator, with irresistible evidence. Nor, though a wonderful outcry has been raised about the opposition between the records of the rocks and the records of the Bible, regarding the antiquity of the earth, has any one yet succeeded in proving such an opposition, for the plain reason that neither the Bible nor geology says how old it is. They both say it is very old. The Bible says, "In the beginning G.o.d created the heavens and the earth;" and by the use which it makes of the word _beginning_, leaves us to infer that it was long before the existence of the human race.[360] If the geologist could prove that the earth was six thousand millions of years older than Adam, it would contradict no statement of the Bible. The Bible reader, therefore, has no reason to question any well ascertained fact of geology. But when Infidels come to us with their geological _theories_ about the mode in which G.o.d made the earth, or in which the earth made itself, and how long it took to do it, and tell us that they have got scientific demonstration from the rocks that the Bible account is false, and that our old traditions can not stand before the irresistible evidence of science, we are surely bound to look at the foundation of facts, and the logical superstructure, which sustain such startling conclusions.

Now it is remarkable that every Infidel argument against the statements of the Bible, or rather against what they suppose to be the statements of the Bible, is based, not on the _facts_, but upon the _theories_, of geology. I do not know one which is based solely on facts and inductions from facts. Every one of them has a wooden leg, and goes hobbling upon an _if_.

Take for example the argument most commonly used--that which a.s.serts the vast antiquity of the earth--a thing in itself every way likely, and not at all contrary to Scripture, if it could be scientifically proved. But how does our Infidel geologist set about his work of proving that the earth is any given age, say six thousand millions of years? A scientific demonstration must rest upon _facts_--well ascertained facts. It admits of _no suppositions_. Now what are the facts given to solve the problem of the earth's age? The geologist finds a great many layers of rocks, one above the other, evidently formed below the water, some of them out of the fragments of former rocks, containing bones, sh.e.l.ls, and casts of fishes, and tracks of the feet of birds, made when these rocks were in the state of soft mud, and altogether several miles thick. He has a great mult.i.tude of such facts before him, but they are all of this character. Not one of them gives him the element of _time_. They announce to him a succession of events, such as successive generations of fishes and plants; but not one of them tells how long these generations lived. The condition of the world was so utterly different then, from what it is now, that no inference can be drawn from the length of the lives of existing races, which are generally also of different species. The utmost any man can say, in such a case, is, _I suppose_, for there is no determinate element of time in the statement of the problems, and so no certain time can appear in the solution.

Here is a problem exactly similar. A certain house is found to be built with ten courses of hewn stone in the bas.e.m.e.nt, forty courses of brick in the first story, thirty-six courses in the second, thirty-two in the third; with a roof of nine inch rafters covered with inch boards, and an inch and a half layer of coal tar and gravel; how long was it in building? Would not any school-boy laugh at the absurdity of attempting such a problem? He would say, "How can I tell unless I know whence the materials came, how they were conveyed, how many workmen were employed, and how much each could do in a day? If the brick had to be made by hand, the lumber all dressed with the hand-saw and jack-plane, the materials all hauled fifty miles in an ox-cart, the brick carried up by an Irishman in a hod, and the work done by an old, slow-going, jobbing contractor, who could only afford to pay three or four men at a time, they would not get through in a year. But if the building stone and sand were found in excavating the cellar, if the brick were made by steam and came by railroad, a good master builder, with steam saw and planing mills, steam hoists, and a strong force of workmen, would run it up in three weeks."

So our geologist ought to say; "I do not know either the source of the materials of the earth's strata, nor the means by which they were conveyed to their present positions; therefore I can not tell the time required for their formation. If the crust of the earth was created originally of solid granite, and the materials of the strata were ground down by the slow action of frost and rain, and conveyed to the ocean by the still slower agencies of rivers and torrents--hundreds of millions of ages would not effect the work. But if the earth was created in such a shape as would rationally be considered the best adapted for future stratification; if its crust consisted of the various elements of which granite and other rocks are composed; if these materials were ejected in a granular or comminuted form, and in vast quant.i.ties by submarine volcanoes generated by the chemical action of these elements upon each other; and if, after being diffused by the currents of the ocean, and consolidated by its vast pressure, the underlying strata were baked and melted and crystallized into granite[361]--a very few centuries would suffice. Until these indispensable preliminaries are settled, geology can make no calculations of the length of time occupied by the formation of the strata."

But instead of saying so, he _imagines_ that G.o.d chose to make the earth out of the most impossible materials, by the most unsuitable agencies, and with the most inadequate forces; and that therefore a long time was needed for the work. In short, to revert to our ill.u.s.tration of the house-building, he _supposes_ that Almighty G.o.d built the earth with the ox-team, and employed only the same force in erecting the building, which he now uses for doing little jobbing repairs. Almost all geological computations of time are made upon the supposition that only the same agents were at work then which we see now, that they only wrought with the same degree of force, and that they produced just the same effects in such a widely different condition of the earth as then prevailed. It takes a year say to deposit mud enough at the bottom of the sea to make an inch of rock now; _and if mud was deposited no faster_ when the geological strata were formed, they are as many years old as there are inches in eight or nine miles depth of strata. But this is not the scientific proof we were promised. How does he prove that mud was deposited at just the same rate then as now? The very utmost he can say is that it is a very probable supposition. I can prove it a very improbable supposition. But it is enough for my present purpose to point out that, probable or improbable, it is _only supposition_. No proof is given or can possibly be given for it. Any conclusion drawn from such premises can be only a _supposition_ too. And so the whole fabric of geological chronology, upon the stability of which so many Infidels are risking the salvation of their souls, and beneath which they are boasting that they will bury the Bible beyond the possibility of a resurrection, vanishes into a mere _unproved notion_, based upon an _if_.

It is truly astonis.h.i.+ng, that any sober-minded person should allow himself to be shaken in his religious convictions by the alleged results of a science so unformed and imperfect, as geologists themselves acknowledge their favorite science to be. "The dry land upon our globe occupies only _one-fourth_ of its whole superficies. All the rest is sea. How much of this fourth part have geologists been able to examine?

and how small seems to be the area of stratification which they have explored? We venture to say not one _fiftieth part of the whole_."[362]

"Abstract or speculative geology, were it a perfect science, would present a history of the globe from its origin and formation, through all the changes it has undergone, up to the present time; describing its external appearance, its plants and animals at each successive period.

_As yet, geology is the mere aim to arrive at such knowledge_; and when we consider how difficult it is to trace the history of a nation, even over a few centuries, we can not be surprised at the small progress geologists have made in tracing the history of the earth through the lapse of ages. To ascertain the history of a nation possessed of written records is comparatively easy; but when these are wanting, we must examine the ruins of their cities and monuments, and judge of them as a people from the size and structure of their buildings, and from the remains of art found in them. This is often a perplexing, always an arduous task; _much more so is it to decipher the earth's history_."[363] "The canoes, for example, and stone hatchets found in our peat bogs afford an insight into the rude arts and manners of the earliest inhabitants of our island; the buried coin fixes the date of some Roman emperor; the ancient encampments indicate the districts once occupied by invading armies, and the former method of constructing military defenses; the Egyptian mummies throw light on the art of embalming, the rites of sepulture, or the average stature of ancient Egypt. This cla.s.s of memorials yields to no other in authenticity, but it const.i.tutes a small part only of the resources on which the historian relies; whereas in geology it forms the only kind of evidence which is at our command. For this reason _we must not expect to obtain a full and connected account of any series of events beyond the reach of history_."[364] "There are no calculations more doubtful than those of the geologist."[365] In fact, no truly scientific geologist pretends that it stands on the same level with any authentic history, much less with the Bible record; inasmuch as the discovery of a single new fact may overturn the whole theory. "It furnishes us with no clew by which to unravel the unapproachable mysteries of creation. These mysteries belong to the wondrous Creator, and to him only. We attempt to theorize upon them, and to reduce them to law, and all nature rises up against us in our presumptuous rebellion. A stray splinter of cone bearing wood--a fish's skull or tooth--the vertebra of a reptile--the humerus of a bird--the jaw of a quadruped--_all_, _any_ of these things, weak and insignificant as they may seem, become in such a quarrel too strong for us and our theory--the puny fragment in the grasp of truth forms as irresistible a weapon as the dry bone did in that of Samson of old; and our slaughtered sophisms lie piled up, 'heaps upon heaps,' before it."[366]

The history of the progress of geology furnishes abundant proof of the truth of these admissions of weakness and fallibility. In almost every instance when we have had the opportunity of testing geological calculations of time they have proved to be erroneous; and sometimes grossly erroneous. The lake dwellings of Switzerland, which were once alleged to be at least fifteen thousand years old, are found surrounded by heaps of burnt corn; ill.u.s.trating Caesar's account of the burning of their corn by the Helvetians, preparatory to the invasion of Gaul, which he repelled. The peat bogs of Denmark, surrounding stumps of oak, beech, and pine, claimed to be successive growths, and at least twelve thousand five hundred years old, have been compared with a piece of primeval bog and forest, on the Earl of Arran's estate, in Scotland, which corresponds perfectly to the Danish bog; but which shows the three growths not successive, but contemporaneous, at different levels; the bog growing as well as the trees. And the frequent discovery of Danish remains of the stone and bronze ages in the old Danish forts and battle-fields of Ireland fixes their historical period at the era of the Danish invasion; some of these stone and bronze weapons being found on the battle-field of Clontarf, dating A. D. 827. Skeletons of warriors with gold collars, bronze battle-axes, and flint arrow heads are quite common in the Irish bogs. The absence of iron, on which so great a theory of the stone, bronze, and iron ages as successive developments of civilization has been raised, is easily accounted for by the perishable nature of iron when exposed to moisture. But that this Celtic race used iron also, as well as bronze and stone, is proved incontestably by the discovery, in 1863, of the slag of their iron furnaces, among a number of flint weapons, and Celtic skulls, at Linhope, in Northumberland; the iron itself having perished by rust.[367] The pottery, gla.s.s, and handmills found beside these skulls show that their owners were by no means the degraded savages supposed to represent the so-called stone age.

Horner's Nile pottery, discovered at a depth of sixty feet, and calculated to be twelve thousand years old, and fragments found still deeper in this deposit, and calculated at thirty thousand years, were found to be underlaid by still deeper layers, producing Roman pottery; and in the deepest boring of all, at the foot of the statue of Rameses II., the discovery of the Grecian honeysuckle, marked on some of these mysterious fragments, which they had claimed as pre-historic, proved that it could not be older than the Greek conquest of Egypt. Sir Robert Stephenson found in the neighborhood of Damietta, at a greater depth than Mr. Horner reached, a brick bearing the stamp of Mohammed Ali.[368]

The s.h.i.+fting currents of all rivers flowing through alluvial deposits bury such things in a single season of high water.

The raised beaches of Scotland are quite conspicuous geological features of the Highlands, and have furnished themes for calculations of their vast antiquity. Here and there human remains had been discovered in them, but no link could be had to connect them otherwise than geologically with history. Geologists, accordingly, with their visual generosity of time, a.s.signed them to the pre-Adamite period. But recently the missing link has been found, and these progenitors of Tubal Cain, and the pre-Adamites generally, are found to have been in the habit of supping their broth out of Roman pottery!

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