CONVERSATION II. ON THE ATTRACTION OF GRAVITY. ATTRACTION OF GRAVITATION, CONTINUED.—OF WEIGHT.—OF THE OF FALL OF BODIES.-OF THE RESISTANCE OF THE AIR.OF THE ASCENT OF LIGHT BODIES. EMILY. I HAVE related to my sister Caroline all that you have taught me of natural philosophy, and she has been so much delighted by it, that she hopes you will have the goodness to admit her to your lessons. Mrs. B. Very willingly; but I did not think you had any taste for studies of this nature, Caroline? Caroline. I confess, Mrs. B., that hitherto I had formed no very agreeable idea either of philosophy, or philosophers; but what Emily has told me, has excited my curiosity so much, that I shall be highly pleased if you will allow me to become one of your pupils. Mrs. B. I fear that I shall not find you so tractable a scholar as Emily; I know that you are much biassed in favour of your own opinions. Caroline. Then you will have the greater merit in reforming them, Mrs. B.; and after all the wonders that Emily has related to me, I think I stand but little chance against you and your attractions. Mrs. B. You will, I doubt not, advance a number of objections; but these I shall willingly admit, as they will be a means of elucidating the subject. Emily, do you recollect the names of the general properties of bodies? Emily. Impenetrability, extension, figure, divisibility, inertia, and attraction. Mrs. B. Very well. You must remember that these are properties common to all bodies, and of which they cannot be deprived; all other properties of bodies are called accidental, because they depend on the relation or connection of one body to another. Caroline. Yet surely, Mrs. B., there are other properties which are essential to bodies, besides those you have enumerated. Colour and weight, for instance, are common to all bodies, and do not arise from their connection with each other, but exist in the bodies themselves; these, therefore, cannot be accidental qualities? Mrs. B. I beg your pardon; these properties do not exist in bodies independently of their connection with other bodies. Caroline. What! have bodies no weight? Does not, this table weigh heavier than this book; and, if one things weighs heavier than another, must there not be such a thing as weight? Mrs. B. No doubt: but this property does not appear to be essential to bodies; it depends upon their connection with each other. Weight is an effect of the power of attraction, without which the table and the book would have no weight whatever. Emily. I think I understand you; is it not the attraction of gravity, which makes bodies heavy? Mrs. B. You are right. I told you that the attraction of gravity was proportioned to the quantity of matter which bodies contained: now the earth consisting of a much greater quantity of matter than any body upon its surface, the force of its attraction must necessarily be greatest, and must draw every thing towards it; in consequence of which, bodies that are unsupported fall to the ground, whilst those that are supported press upon the object which prevents their fall, with a weight equal to the force with which they gravitate towards the earth. Caroline. The same cause then which occasions the fall of bodies, produces also their weight. It was very dull in me not to understand this before, as it is the natural and necessary consequence of attraction; but the idea that bodies were not really heavy of themselves, appeared to me quite incomprehensible. But, Mrs. B., if attraction is a property essential to matter, weight must be so likewise; for how can one exist without the other? Mrs. B. Suppose there were but one body existing in universal space, what would its weight be? Caroline. That would depend upon its seize; or more accurately speaking, upon the quantity of matter it contained. Emily. No, no; the body would have no weight, whatever were its size; because nothing would attract it. Am I not right, Mrs. B.? Mrs. B. You are: you must allow, therefore, that it would be possible for attraction to exist without weight; for each of the particles of which the body was composed, would possess the power of attraction; but they could exert it only amongst themselves; the whole mass having nothing to attract, or to be attracted by, would have no weight. Caroline. I am now well satisfied that weight is not essential to the existence of bodies; but what have you to object to colours, Mrs. B.; you will not, I think, deny that they really exist in the bodies themselves. Mrs. B. When we come to treat of the subject of colours, I trust that I shall be able to convince you, that colours are likewise accidental qualities, quite distinct from the bodies to which they appear to belong. Caroline. Oh do pray explain it to us now, I am so very curious to know how that is possible. Mrs. B. Unless we proceed with some degree of order and method, you will in the end find yourself but little the wiser for all you learn. Let us therefore go on regularly, and make ourselves well acquainted with the general properties of bodies, before we proceed further. Emily. To return, then, to attraction, (which appears to me by far the most interesting of them, since it belongs equally to all kinds of matter,) it must be mutual between two bodies; and if so, when a stone falls to the earth, the earth should rise part of the way to meet the stone? Mrs. B. Certainly; but you must recollect that the force of attraction is proportioned to the quantity of matter which bodies contain, and if you consider the difference there is in that respect, between a stone and the earth, you will not be surprised that you do not perceive the earth rise to meet the stone; for though it is true that a mutual attraction takes place between the earth and the stone, that of the latter is so very small in comparison to that of the former, as to render its effect insensible. Emily. But since attraction is proportioned to the quantity of matter which bodies contain, why do not the hills attract the houses and churches towards them? Caroline. Heavens, Emily, what an idea! How can the houses and churches be moved, when they are so firmly fixed in the ground! Mrs. B. Emily's question is not absurd, and your answer, Caroline, is perfectly just; but can you tell us why the houses and churches are so firmly fixed in the ground? Caroline. I am afraid I have answered right by mere chance; for I begin to suspect that bricklayers and carpenters could give but little stability to their buildings, without the aid of attraction. Mrs. B. It is certainly the cohesive attraction between the bricks and the mortar, which enables them to build walls, and these are so strongly attracted by the earth, as to resist every other impulse; otherwise they would necessarily move towards the hills and the mountains; but the lesser force must yield to the greater. There are, however, some circumstances in which the attraction of a large body has sensibly counteracted that of the earth. If, whilst standing on the declivity of a mountain, you hold a plumb-line in your hand, the weight will not fall perpendicular to the earth, but incline a little towards the mountain; and this is owing to the lateral, or sideways attraction of the mountain, interfering with the perpendicular attraction of the earth. Emily. But the size of a mountain is very trifling, compared to the whole earth ? Mrs. B. Attraction, you must recollect, diminishes with distance; and in the example of the plumb-line, the weight suspended is considerably-nearer to the mountain than to the centre of the earth. Caroline. Pray Mrs. B. do the two scales of a balance hang parallel to each other? Mrs. B. You mean, I suppose, in other words to inquire whether two lines which are perpendicular to the earth, are parallel to each other? I believe I guess the reason of your question; but I wish you would endeavour to answer it without my assistance. Caroline. I was thinking that such lines must both tend by gravity to the same point, the centre of the earth; now lines tending to the same point cannot be parallel, as parallel lines are always at an equal distance from each other, and would never meet. Mrs. B. Very well explained; you see now the use of your knowledge of parallel lines: had you been ignorant of their properties, you could not have drawn such a conclusion. This may enable you to form an idea of the great advantage to be derived even from a slight knowledge of geometry, in the study of natural philosophy; and if, after I have made you acquainted with the first elements, you should be tempted to pursue the study, I would advise you to prepare yourselves by acquiring some knowledge of geometry. This sci-, ence would teach you that lines which fall perpendicular to the surface of a sphere cannot be parallel, because |