Natural philosophy



Natural philosophy or philosophy of nature (from Latin philosophia naturalis) has been described as the philosophical study of nature and the physical universe that was dominant before the development of modern science, and as the precursor to the natural sciences. However, it is described by some below as "a word still used for physics at the Scottish universities" as late as 1949, as the "love of a knowledge of the productions of nature or God," and that the "science of today is in danger of losing much of the natural philosophy aspect."

Quotes

 * We should remember that there was once a discipline called natural philosophy. Unfortunately, this discipline seems not to exist today. It has been renamed science, but science of today is in danger of losing much of the natural philosophy aspect.
 * Hannes Alfvén, Dean of the Plasma Dissidents (1988)


 * As we divided natural philosophy in general into the inquiry of causes, and productions of effects: so that part which concerneth the inquiry of causes we do subdivide according to the received and sound division of causes. The one part, which is physic, inquireth and handleth the material and efficient causes; and the other, which is metaphysic, handleth the formal and final causes.
 * Francis Bacon, The Advancement of Learning (1605) Book VII, 3


 * The natural philosophy of Democritus and some others, who did not suppose a mind or reason in the frame of things, but attributed the form thereof able to maintain itself to infinite essays or proofs of nature, which they term fortune, seemeth to me... in particularities of physical causes more real and better inquired than that of Aristotle and Plato; whereof both intermingled final causes, the one as a part of theology, and the other as a part of logic, which were the favourite studies respectively of both those persons. Not because those final causes are not true, and worthy to be inquired, being kept within their own province; but because their excursions into the limits of physical causes hath bred a vastness and solitude in that tract.
 * Francis Bacon, The Advancement of Learning (1605) Book VII, 7


 * Histories make men wise; poets witty; the mathematics subtile; natural philosophy deep; moral grave; logic and rhetoric able to contend.
 * Francis Bacon, Of Studies, in The Essayes or Counsels, Civil and Moral, of Francis Lord Verulam, Viscount St. Alban (1625) as quoted in Bacon's Essays (1892) p. 129.


 * Nature, as well as human affairs, seems to be subject to both necessity and accident. Yet even accident is not completely arbitrary, for there are laws of chance, formulated in the mathematical theory of probability, nor can the cause-effect relation be used for predicting the future with certainty, as this would require a complete knowledge of the relevant circumstances, present, past, or both together, which is not available. There seems to be a hopeless tangle of ideas. ...if you look through the literature ...you will find no satisfactory solution, no general agreement. Only in physics has a systematic attempt been made to use the notions of cause and chance in a way free from contradictions. Physicists form their notions through the interpretation of experiments. This method may rightly be called Natural Philosophy, a word still used for physics at the Scottish universities. ...My material will be taken mainly from physics, but I shall try to regard it with the attitude of the philosopher... I know that such an attempt will not find favour with some philosophers, who maintain that science teaches only a narrow aspect of the world, and one which is of no great importance to man's mind. It is true that many scientists are not philosophically minded and have hitherto shown much skill and ingenuity but little wisdom. ...Wise men would have considered the consequences of their activities before starting on them ; scientists have failed to do so, and only recently have they become conscious of their responsibilities to society. They have gained prestige as men of action, but they have lost credit as philosophers. Yet history shows that science has played a leading part in the development of human thought. It has not only supplied raw material to philosophy by gathering facts, but also evolved the fundamental concepts on how to deal with them. It suffices to mention the Copernican system of the universe, and the Newtonian dynamics which sprang from it. These originated the conceptions of space, time, matter, force, and motion for a long time to come, and had a mighty influence on many philosophical systems. It has been said that the metaphysics of any period is the offspring of the physics of the preceding period. ...more than 200 years after Newton there should be some progress in the assimilation of mathematics by those who are interested in natural philosophy. So I shall use ordinary language and formulae in a suitable mixture; but I shall not give proofs of theorems (they are collected in the Appendix).
 * Max Born, Natural Philosophy Of Cause And Chance (1949) Introduction; and as "The Waynflete Lectures" (1948)


 * An unrestricted belief in causality leads necessarily to the idea that the world is an automaton of which we ourselves are only little cog-wheels. This means materialistic determinism. It resembles very much that religious determinism accepted by different creeds, where the actions of men are believed to be determined from the beginning by a ruling of God. ...The notion of divine predestination clashes with the notion of free will, in the same way as the assumption of an endless chain of natural causes. On the other hand, an unrestricted belief in chance is impossible, as it cannot be denied that there are a great many regularities in the world; hence there can be, at most, 'regulated accident'. One has to postulate laws of chance which assume the appearance of laws of nature or laws for human behaviour. ...Our philosophy is dualistic in this respect; nature is ruled by laws of cause and laws of chance in a certain mixture. How is this possible? Are there no logical contradictions? Can this mixture of ideas be cast into a consistent system in which all phenomena can be adequately described or explained? What do we mean by such an explanation if the feature of chance is involved ? What are the irreducible or metaphysical principles involved? Is there any room in this system for free will or for the interference of deity? ...The statement, frequently made, that modern physics has given up causality is entirely unfounded. Modern physics, it is true, has given up or modified many traditional ideas; but it would cease to be a science if it had given up the search for the causes of phenomena. ...I shall survey the development of physical thought, dwelling here and there on special points of interest, and I shall try to apply the results to philosophy in general.
 * Max Born, Natural Philosophy Of Cause And Chance (1949) Introduction; also as "The Waynflete Lectures" (1948)

I believe that we need to review the whole of our natural philosophy in the light of scientific knowledge that has arisen in the last fifty years.
 * Since the word "knowledge" occurs in my general title... I am going to be talking about epistemology, although I prefer to use the eighteenth-century, indeed, medieval phrase, "natural philosophy." ...that enterprise of the human mind which attempts to trace lawfulness to nature, dead and living, but which is not directed to specific inquiries into how this or that law works. Philosophy in the sense in which I practice it, natural philosophy, is concerned with lawfulness rather than with laws and the general nature of laws rather than with the specific structure of this or that law. Natural philosophy was one of the three topics (moral philosophy and metaphysical philosophy were the others) to which one graduated in medieval universities after having studied the seven liberal arts.
 * Jacob Bronowski, The Origins of Knowledge and Imagination (1978)

Others, therefore, by laying aside that useless heap of words, thought to employ their pains to better purpose. These supposed all matter homogeneous, and that the variety of forms which is seen in bodies arises from some very plain and simple affections of the component particles; and by going on from simple things to those which are more compounded, they certainly proceed right, if they attribute no other properties to those primary affections of the particles than nature has done. But when they take a liberty of imagining at pleasure unknown figures and magnitudes, and uncertain situations and motions of the parts; and, moreover, of supposing occult fluids, freely pervading the pores of bodies, endued with an all-performing subtilty, and agitated with occult motions; they now run out into dreams and chimeras, and neglect the true constitution of things; which certainly is not to be expected from fallacious conjectures, when we can scarcely reach it by the most certain observations. Those who fetch from hypotheses the foundation on which they build their speculations, may form, indeed, an ingenious romance; but a romance it will still be. There is left, then, the third class, which profess experimental philosophy. These, indeed, derive the causes of all things from the most simple principles possible; but, then, they assume nothing as a principle that is not proved by phænomena. They frame no hypotheses, nor receive them into philosophy otherwise than as questions whose truth may be disputed. They proceed, therefore, in a twofold method, synthetical and analytical. From some select phænomena they deduce by analysis the forces of nature, and the more simple laws of forces; and from thence by synthesis shew the constitution of the rest. This is that incomparably best way of philosophizing which our renowned author most justly embraced before the rest, and thought alone worthy to be cultivated and adorned by his excellent labours. Of this he has given us a most illustrious example by the explication of the System of the World, most happily deduced from the theory of gravity. That the virtue of gravity was found in all bodies, others suspected or imagined before him; but he was the only and the first philosopher that could demonstrate it from appearances, and make it a solid foundation to the most noble speculations.
 * Those who have treated of natural philosophy may be nearly reduced to three classes. Of these, some have attributed to the several species of things specific and occult qualities, on which, in a manner unknown, they make the operations of the several bodies to depend. The sum of the doctrine of the schools derived from Aristotle and the Peripatetics is herein contained. They affirm that the several effects of bodies arise from the particular natures of those bodies; but whence it is that bodies derive those natures they do not tell us, and therefore they tell us nothing. And being entirely employed in giving names to things, and not in searching into things themselves, we may say, that they have invented a philosophical way of speaking, but not that they have made known to us true philosophy.
 * Roger Cotes, Preface to second edition Principia (May 12, 1715 ) as quoted in The Mathematical Principles of Natural Philosophy, Vol. 1 (1803) Sir Isaac Newton, Tr. Andrew Motte.

If we concede that the name philosopher should apply to those who are concerned with a harmonisation of the whole than with individual facts, or, again, with a general view of things rather than with a restricted view, we must agree that the theoretical physicists must be called philosophers. They are, then, the philosophers of the inorganic world, just as the pure mathematicians might be called the philosophers of abstract relations. Now... the facts which these scientific philosophers are seeking to co-ordinate are of a restricted species; they are mathematical, physical and chemical in nature; hence it is clear that there is room for a more general type of philosopher—a super-philosopher, as it were—whose facts would comprise all the spheres of human knowledge, including consciousness, emotions and the relationships between mind and matter. The traditional philosophers—or shall we say lay philosophers, since we are discussing scientific matters?—aspire to be placed in this category of thinkers. It would appear, then, that theoretical scientists, and lay philosophers have much in common; they differ only in the scope of the facts they are seeking to co-ordinate. But here is where the first breach arises. The theoretical scientist proceeds with the utmost caution and considers himself at liberty to theorise only after a sufficient number of facts have been established by experiment and observation; till then he remains silent. ...It was not one, nor two, nor even three of the negative experiments in electromagnetics that drove Einstein towards his revolutionary theory; it was the whole body of electrodynamics. ... But when we examine the procedure of the lay philosopher who discusses scientific matters, we see that his procedure is entirely different.
 * Since they are neither great mathematicians nor able experimenters, what are we to call such men as Maxwell, Lorentz and Einstein?
 * A. D'Abro, The Evolution of Scientific Thought from Newton to Einstein (1927) pp.344-345


 * Les causes primordiales ne nous sont point connues; mais elles sont assujetties à des lois simples et constantes, que l'on peut découvrir par l'observation, et dont l'étude est l'objet de la philosophie naturelle.
 * We cannot know the primary causes; but they are subject to simple and constant laws, which we can discover by observation, the study of which is the subject of natural philosophy.
 * Joseph Fourier, Theorie analytique de la chaleur (1822) opening sentence of the "Discours préliminaire."

Physics belong to mix'd Mathematics. The Properties of Bodies, and the Laws of Nature, are the foundations of mathematical Reasoning, as all that have examined the Scope of the Science will freely confess. But Philosophers do not equally agree upon what is to pass for a Law of Nature, and what Method is to be followed in quest of those Laws. I have therefore thought fit... to make good the Newtonian Method... Physics do not meddle with the first Foundation of Things. That the World was created by God, is a Position wherein Reason so perfectly agrees with Scripture, that the least Examination of Nature will shew plain Footsteps of supreme Wisdom. It is confounding and oversetting all our clearest Notions, to assert that the World may have taken its Rise from some general Laws of Motion, and that it imports not what is imagined concerning the first Division of Matter. And that there can hardly be anything supposed, from which the same Effect may not be deduced by the same Laws of Nature: and that for this Reason; That since Matter successively assumes all the Forms it is capable of by means of those Laws, if we consider all those Forms in order, we must at last come to that Form wherein this present World was framed; so that we have no Reason in this Case to fear any Error from a wrong Supposition. This Assertion, I say, overthrows all our clearest Notions, as has been fully proved by many learned Men; and is indeed so unreasonable, and so injurious to the Deity, that it will seem unworthy of an Answer to any one that does not know that it has been maintain'd by any antient and modern Philosophers, and some of them of the first Rank, and far removed from any Suspicion of Atheism. Then first laying it down as an undoubted Truth, that God has created all Things, we must afterwards explain by what Laws every thing is governed.
 * Natural Philosophy is placed among those Parts of Mathematics, whose Object is Quantity in general. Mathematics are divided into pure and mixed. Pure Mathematics enquire into the general Properties of Figures and abstracted Ideas. Mixed Mathematics examine Things themselves, and will have our Notions and Deductions to agree both with Reason and Experience.
 * Willem Jacob s' Gravesande, Mathematical Elements of Natural Philosophy, Confirm'd by Experiments: Or, an Introduction to Sir Isaac Newton's Philosophy (1747) Vol. 1 Tr. John Theophilus Desaguliers, pp. ii-iii.


 * Neither in science itself, nor in that lower class of the arts which arise out of its practical application, has any individual work an enduring ultimate value, unless from its execution: and this would be altogether independent of its scientific value, and would belong to it solely as a work of art. In science its main worth is temporary, as a stepping-stone to something beyond. Even the Principia, as Newton, with characteristic modesty entitled his great work, is truly but the beginning of a natural philosophy, and no more an ultimate work than Watt's steam-engine, or Arkwright's spinning-machine. ...Thus in science there is a continual progress, a pushing onward: no ground is lost; and the lines keep on advancing. We know all that our ancestors knew, and more: the gain is clear, palpable, indisputable. The discoveries made by former ages have become a permanent portion of human knowledge, and serve as a stable groundwork to build fresh discoveries atop of them; as these in their turn will build up another story, and this again another.
 * Julius Charles Hare, ‎Augustus William Hare, Guesses at Truth, by Two Brothers (1861) pp. 318-319.


 * If we examine the mere signification of the two words Natural Philosophy, we find that natural means something that is produced by nature; and philosophy, from the Greek, is literally "love of wisdom or knowledge." Thus, then, the words imply love of a knowledge of the productions of nature or God. Knowledge, in its true sense, is an accumulation of facts; these man carefully collects, and reasoning thereupon, is capable of penetrating many of the secret workings of nature, and turning such acquisition to his peculiar advantage. Natural Philosophy is also termed Physics, that is, a study of nature by means of the strictest modes of investigation the intellect of man has at command.
 * Jabez Hogg, Elements of Experimental and Natural Philosophy (1853) p. 1.

By an acquaintance with its first principles—the embellishments of a palace, the necessities of a cottage, the swinging of a carriage, and the management of a dray, are all better accomplished. The elasticity of air and steam, that drives the vessel despite of tide or wind, or sends tons of merchandise with surprising velocity to the extremes of a kingdom, are by its teaching comprehended. Knowing the cause of the awful voice of thunder, of the terrific destruction of lightning, and of the peaceful beauties of the rainbow, much ignorant teaching is dispelled. Man has so advanced in his comprehension of nature, that he chains one of the most fearful elements to his use, which he guides and directs as if it were possessed of the feebleness of a helpless babe; with it he sends his thoughts with a speed surpassing the rapid flight of time. No one can feel but abashed at not understanding the simple principles that produce such seemingly miraculous effects. Natural Philosophy aids, then, our commerce, wealth, happiness, luxuries, necessities, and civilisation.
 * Wide is the scope of Natural Philosophy. It leads to an acquaintance with the laws that keep the planets in their undeviating path; it treats of the phenomena of the earth, the air, and the ocean; of the simple principles of mechanism that man employs; of the falling of the silent dew or the rushing of the roaring cataract; of the heat of summer and the frost of winter; of the zephyr-breeze or the destructive tornado; of the swimming of fishes or the flying of birds; of the ripple of the placid lake or the mountain waves of the ocean; of the grace, motion, and powers of the human form; of the mechanism of the voice, the ear, and the eye.
 * Jabez Hogg, Elements of Experimental and Natural Philosophy (1853) pp. 1-2.


 * Our imagination is struck only by what is great; but the lover of natural philosophy should reflect equally on little things. We have just seen that winged insects, collected in society, and concealing in their sucker a liquid that irritates the skin, are capable of rendering vast countries almost uninhabitable. Other insects equally small, the termites (comejen), create obstacles to the progress of civilization, in several hot and temperate parts of the equinoctial zone, that are difficult to be surmounted. They devour paper, pasteboard, and parchment with frightful rapidity, utterly destroying records and libraries. Whole provinces of Spanish America do not possess one written document that dates a hundred years back. What improvement can the civilization of nations acquire if nothing link the present with the past; if the depositaries of human knowledge must be repeatedly renewed; if the records of genius and reason cannot be transmitted to posterity?
 * Alexander von Humboldt, Personal Narrative of Travels to the Equinoctial Regions of America, during the years 1799-1804 (1869) Vol. 2 p. 288.


 * It is the object of Natural Philosophy to make us acquainted with the various qualities or properties of matter, and the manner in which different masses of it affect each other.
 * John Johnston, A Manual of Natural Philosophy (1854)

If one considers a series of objects of the same nature one perceives among them and in their changes ratios which manifest themselves more and more in proportion as the series is prolonged, and which, extending and generalizing continually, lead finally to the principle from which they were derived. But these ratios are enveloped by so many strange circumstances that it requires great sagacity to disentangle them and to recur to this principle: it is in this that the true genius of sciences consists. Analysis and natural philosophy owe their most important discoveries to this fruitful means, which is called induction. Newton was indebted to it for his theorem of the binomial and the principle of universal gravity. It is difficult to appreciate the probability of the results of induction, which is based upon this that the simplest ratios are the most common; this is verified in the formulae of analysis and is found again in natural phenomena, in crystallization, and in chemical combinations. This simplicity of ratios will not appear astonishing if we consider that all the effects of nature are only mathematical results of a small number of immutable laws. Yet induction, in leading to the discovery of the general principles of the sciences, does not suffice to establish them absolutely. It is always necessary to confirm them by demonstrations or by decisive experiences; for the history of the sciences shows us that induction has sometimes led to inexact results.
 * Induction, analogy, hypotheses founded upon facts and rectified continually by new observations, a happy tact given by nature and strengthened by numerous comparisons of its indications with experience, such are the principal means for arriving at truth.
 * Pierre-Simon Laplace, A Philosophical Essay on Probabilities (1902) Ch. 17, pp. 176-177.


 * A true philosopher does not engage in vain disputes about the nature of motion; rather, he wishes to know the laws by which it is distributed, conserved or destroyed, knowing that such laws are the basis for all natural philosophy.
 * Pierre Louis Maupertuis, Les Loix du Mouvement et du Repos, déduites d'un Principe Métaphysique (1746)

And for rejecting such a Medium, we have the authority of those the oldest and most celebrated philosophers of ancient Greece and Phoenicia, who made a vacuum and atoms and the gravity of atoms the first principles of their philosophy, tacitly attributing Gravity to some other Cause than dense Matter. Later Philosophers banish the Consideration of such a Cause out of natural Philosophy, feigning Hypotheses for explaining all things mechanically, and referring other Causes to Metaphysicks: Whereas the main Business of natural Philosophy is to argue from Phenomena without feigning Hypotheses, and to deduce Causes from Effects, till we come to the very first Cause, which certainly is not mechanical.
 * To make way for the regular and lasting Motions of the Planets and Comets, it's necessary to empty the Heavens of all Matter, except perhaps some very thin Vapours, Steams or Effluvia, arising from the Atmospheres of the Earth, Planets and Comets, and from such an exceedingly rare Æthereal Medium … A dense Fluid can be of no use for explaining the Phænomena of Nature, the Motions of the Planets and Comets being better explain'd without it. It serves only to disturb and retard the Motions of those great Bodies, and make the frame of Nature languish: And in the Pores of Bodies, it serves only to stop the vibrating Motions of their Parts, wherein their Heat and Activity consists. And as it is of no use, and hinders the Operations of Nature, and makes her languish, so there is no evidence for its Existence, and therefore it ought to be rejected. And if it be rejected, the Hypotheses that Light consists in Pression or Motion propagated through such a Medium, are rejected with it.
 * Isaac Newton, Opticks (1704) Query 28


 * As in Mathematicks, so in Natural Philosophy, the Investigation of difficult Things by the Method of Analysis, ought ever to precede the Method of Composition.
 * Isaac Newton, Opticks (1704) Query 31


 * And thus much concerning God; to discourse of whom from the appearances of things, does certainly belong to Natural Philosophy.
 * Isaac Newton, The Mathematical Principles of Natural Philosophy (1729) Scholium Generale (1713, 1726) Tr. Andrew Motte (1846)


 * That which is now called natural philosophy, embracing the whole circle of science, of which astronomy occupies the chief place, is the study of the works of God, and of the power and wisdom of God in his works, and is the true theology.
 * Thomas Paine, The Age of Reason: Being an Investigation of True and Fabulous Theology (1793) Part I


 * The term Natural Philosophy was used by Newton, and is still used in British Universities, to denote the investigation of laws in the material world, and the deduction of results not directly observed. Observation, classification, and description of phenomena necessarily precede Natural Philosophy in every department of natural science. The earlier stage is in some branches commonly called Natural History; and it might with equal propriety be so called in all others.
 * William Thomson, 1st Baron Kelvin & Peter Guthrie Tait, Treatise on Natural Philosophy (1867) Vol. 1, Preface, p. v.


 * There are many properties of motion, displacement, and deformation, which may be considered altogether independently of such physical ideas as force, mass, elasticity, temperature, magnetism, electricity. The preliminary consideration of such properties in the abstract is of very great use for Natural Philosophy, and we devote to it, accordingly... the Geometry of our subject, embracing what can be observed or concluded with regard to actual motions, as long as the cause is not sought.
 * William Thomson, 1st Baron Kelvin & Peter Guthrie Tait, Treatise on Natural Philosophy (1867) Vol. 1, p. 1.


 * It is certain that either the earth is becoming on the whole cooler from age to age, or the heat conducted out is generated in the interior by temporary dynamical (that is, in this case, chemical) action. To suppose, as Lyell, adopting the chemical hypothesis, has done, that the substances, combining together, may be again separated electrolytically by thermo-electric currents, due to the heat generated by their combination, and thus the chemical action and its heat continued in an endless cycle, violates the principles of natural philosophy in exactly the same manner, and to the same degree, as to believe that a clock constructed with a self-winding movement may fulfil the expectations of its ingenious inventor by going for ever.
 * William Thomson, 1st Baron Kelvin & Peter Guthrie Tait, Treatise on Natural Philosophy (1867) Vol. 1, p. 714.

We did by agreement, divers of us, meet weekly in London on a certain day, to treat and discourse of such affairs. ...The meetings we held sometimes at Dr. Goddard's lodgings...on occasion of his keeping an Operator in his house, for grinding Glasses for Telescopes and Microscopes... and sometime... at  or some place near adjoyning. Our business was (precluding matters of Theology and State Affairs) to discourse and consider of Philosophical Enquiries, and such as related thereunto, as Physick, Anatomy, Geometry, Astronomy, Navigation, Staticks, Magneticks, Chymicks, Mechanicks, and Natural Experiments; with the state of these studies, as then cultivated, at home and abroad. We there discoursed of the Circulation of the Blood, the Valves in the Veins, the Venæ Lecteæ, the Lymphatick Vessels, the Copernican Hypothesis, the Nature of Comets, and New stars, the Satellites of Jupiter, the Oval Shape (as it then appeared) of Saturn, the Spots in the Sun, and it's turning on it's own Axis, the Inequalities and Selenography of the Moon, the several phases of Venus and Mercury, the improvement of Telescopes and grinding of Glasses for that purpose, the Weight of Air, the Possibility or Impossibility of Vacuities, and Nature's Abhorrence thereof, the Torricellian Experiment in Quicksilver, the Descent of heavy Bodies, and the degrees of acceleration therein; and divers other things of like nature. Some of which were then but New Discoveries, and others not so generally known and imbraced, as now they are, with other things appertaining to what hath been called The New Philosophy; which, from the times of Galileo at Florence, and Sr. Francis Bacon (Lord Verulam) in England, hath been much cultivated in Italy, France, Germany, and other Parts abroad, as well as with us in England. About the year 1648, 1649, some of our company being removed to Oxford (first Dr. Wilkins, then I, and soon after Dr. Goddard) our company divided. Those in London continued to meet there as before... Those meetings in London continued, and (after the King's Return in 1660) were increased with the accession of divers worthy and Honorable Persons; and were afterwards incorporated by the name of the , &c. and so continue to this day.
 * About the year 1645 while, I lived in London (at a time, when, by our Civil Wars, Academical Studies were much interrupted in both our Universities:) beside the Conversation of divers eminent Divines, as to matters Theological; I had the opportunity of being acquainted with divers worthy Persons, inquisitive into Natural Philosophy, and other parts of Humane Learning; And particularly of what hath been called the New Philosophy or Experimental Philosophy.
 * John Wallis, Dr. Wallis's Account of some Passages of his own Life (1696) in The works of Thomas Hearne, M.A (1810) Vol. III, pp. CLXI-CLXIV. Also see The Works Of The Honourable Robert Boyle (1772) Preface, Vol. 1, p. xlii.


 * When we reflect on the magnificence of the great picture of the universe... we are lost in the contemplation of the immensity of the prospect, and returning to the comparatively diminutive proportions of our individual persons, and of all the objects with which we are most immediately connected, we cannot help feeling our own insignificance in the material world. The mind, notwithstanding, endeavours to raise itself above the restraints which nature has imposed on the body, and to penetrate the abyss of space in search of congenial existences. But in speculations of this kind, reason and argument must give way to conjecture and imagination; and thus, from natural philosophy, our imaginations wander into the regions of poetry; and it must be confessed that the union of poetical embellishment with natural philosophy is seldom very happy. ...his object is, to say a little, very elegantly, in very circuitous, and somewhat obscure terms. But the information, which the natural philosopher has to impart, is too copious to allow of prolixity in its detail; his subjects are too intricate to be compatible with digressions after amusement, which, besides interrupting, are too likely to enervate the mind; and if he is ever fortunate enough to entertain, it must be by gratifying the love of truth, and satisfying the thirst after knowledge.
 * Thomas Young, A Course of Lectures on Natural Philosophy and the Mechanical Arts (1845) pp. 531-542.


 * Plato introduced into philosophy a variety of imaginations, which resembled the fictions of poetry much more than the truths of science. He maintained, for example, that ideas existed independently of the human mind, and of the external world, and that they composed beings of different kinds, by their union with an imperfect matter. It is observed by Bacon, in his essay on the opinions of Parmenides, that the most ancient philosophers Empedocles, Anaxagoras, Anaximenes, Heraclitus and Democritus, submitted their minds to things as they found them; but that Plato made the world subject to ideas, and Aristotle made even ideas, as well as all other things, subservient to words; the minds of men beginning to be occupied, in those times, with idle discussions and verbal disputations, and the correct investigation of nature being wholly neglected. Plato entertained, however, some correct notions respecting the distinction of denser from rarer matter by its greater inertia; and it would be extremely unjust to deny a very high degree of merit to Aristotle's experimental researches, in various parts of natural philosophy, and in particular to the vast collection of real information contained in his works on natural history. Aristotle attributed absolute levity to fire, and gravity to the earth, considering air and water as of an intermediate nature. By gravity the ancients appear in general to have understood a tendency towards the centre of the earth, which they considered as identical with that of the universe; and as long as they entertained this opinion, it was almost impossible that they should suspect the operation of a mutual attraction in all matter, as a cause of gravitation. The first traces of this more correct opinion respecting it are found in the works of Plutarch.
 * Thomas Young, A Course of Lectures on Natural Philosophy and the Mechanical Arts (1845) pp. 744-745.


 * Epicurus appears to have reasoned as justly respecting many particular subjects of natural philosophy, as he did absurdly respecting the origin of the world, and of the animals which inhabit it. He adopted in great measure the principles of Democritus respecting atoms, but attributed to them an innate power of affecting each other's motions, and of declining, in such a manner, as to constitute, by the diversity of their spontaneous arrangements, all the varieties of natural bodies. He considered both heat and cold as material; the heat emitted by the sun he thought not absolutely identical with light, and even went so far as to conjecture that some of the sun's rays might possibly possess the power of heating bodies, and yet not affect the sense of vision. In order to explain the phenomena of magnetism, he supposed a current of atoms, passing, in certain directions, through the magnet and through iron, which produced all the effects by their interference with each other. Earthquakes and volcanos he derived from the violent explosions of imprisoned air.
 * Thomas Young, A Course of Lectures on Natural Philosophy and the Mechanical Arts (1845) p. 745.

Discourse to the Theophilanthropists (1798)
Thomas Paine


 * Religion has two principal enemies, fanaticism and infidelity, or that which is called atheism. The first requires to be combated by reason and morality, the other by natural philosophy.


 * Contemplating the universe, the whole system of creation, in this point of light, we shall discover, that all that which is called natural philosophy is properly a divine study— It is the study of God through his works — It is the best study, by which we can arrive at a knowledge of the existence, and the only one by which we can gain a glimpse of his perfection.

When we examine an extraordinary piece of machinery, an astonishing pile of architecture, a well-executed statue, or a highly-finished painting where life and action are imitated, and habit only prevents our mistaking a surface of light and shade for cubical solidity, our ideas are naturally led to think of the extensive genius and talent of the artist. When we study the elements of geometry, we think of Euclid. When we speak of gravitation, we think of Newton. How, then, is it that when we study the works of God in creation, we stop short and do not think of God? It is from the error of the schools in having taught those subjects as accomplishments only and thereby separated the study of them from the Being who is the Author of them.
 * It has been the error of schools to teach astronomy, and all the other sciences and subjects of natural philosophy, as accomplishments only; whereas they should be taught theologically, or with reference to the Being who is the Author of them: for all the principles of science are of divine origin. Man cannot make, or invent, or contrive principles; he can only discover them, and he ought to look through the discovery to the Author.


 * The evil that has resulted from the error of the schools in teaching natural philosophy as an accomplishment only has been that of generating in the pupils a species of atheism. Instead of looking through the works of creation to the Creator Himself, they stop short and employ the knowledge they acquire to create doubts of His existence. They labor with studied ingenuity to ascribe everything they behold to innate properties of matter and jump over all the rest by saying that matter is eternal.

When at first thought we think of a creator our ideas appear to us undefined and confused; but if we reason philosophically, those ideas can be easily arranged and simplified. It is a Being, whose power is equal to his will.
 * The atheist who affects to reason, and the fanatic who rejects reason, plunge themselves alike into inextricable difficulties. The one perverts the sublime and enlightening study of natural philosophy into a deformity of absurdities by not reasoning to the end. The other loses himself in the obscurity of metaphysical theories, and dishonours the Creator, by treating the study of his works with contempt. The one is a half-rational of whom there is some hope, the other a visionary to whom we must be charitable.

Also see

 * History of science
 * Philosophy
 * Science