76 177, 206, 291, 341 23,50 Human Cultivation Howard, John, sketch of the life of Hell Torments, considerations on the absolute infinity of 429 380 POETRY.-From a Father to his Daughter, 37, The Morals of Cato Censorius, 38. On Friendship, 32. Epitaph for Athanasius's Creed, 40. On a good Conscience, ibid. From a Brother to his Sisters, 77. Recipe for Connubial Happiness, 79. An Epigram, 80. A young Man's Wish, 117. Essay on Friendship, 119, 159. Invocation to Peace, 158. Versification of Ps. civ. 152. Thoughts which occurred to a Husband while his Wife was in great Agony in Labour, 199. Death-bed Repentance, 237. A Fragment from a serious musical Entertainment, 240. To a Friend on his Marriage, 278. The Christian addressed by his Watch, 279. Epitaph on S. Love, 280. Acrostic, 317. Confidence in God in a Thunder Storm, ibid. Query on Divine Justice, and Answer Scarlett's Testament, 275. Answered 1 John, v. 7., p. 34. Answered God's repenting, 196. Answered the proper Attitude for Praying, 108. the Resurrection, 300. Answered Qualifications essential to a Commentator on the Holy Scriptures Universal Doctrine, Letters on the Antiquity of - 167, 296 Wesley's Thoughts ou the New Creation - 30 Women, Letter V. on 109 Worshippers in London, estimate of their number 112 Universal Restoration Winchester's Writings published in Holland 182 War, Reflections on 187 Whirlpools, Description of 245 : WHEN we view the surface of our globe, we are stricken with the appearance of those streams of water which we call rivers, which at once beautify the prospect, fertilize the soil, and subserve the most ⚫valuable purposes of human life. The study of nature has been the employment of wise men in every age; yet the attainments of human research have never been fully satisfactory to the mind. The greatest philosophers have known only a little, guessed at more, and lamented their ignorance of most parts of the works of God. " The sun ariseth, and the sun goeth down, and pants for the place whence he arose. All things are full of labour-man cannot utter it. All rivers run into the sea, yet the sea is not full. Unto the place whence the rivers come, thither they return again. The eye is not satisfied with seeing, nor the ear with hearing." Such were the reflections of the wisest of the ancient Jews. Whence are rivers produced? whence do they derive those unceasing stores of water, which continually flow in their spacious channels? 'This question has divided the opinions of mankind almost beyond any other topic in natural history. Almost every philosopher who has thought upon the subject, has given a solution different from others. But in the controversy on this head, we may rank the contending parties chiefly under two great leaders, M. De La Hire, a famous French writer, on the one hand; and the great Dr. Hally on the other. The first contends that rivers must be supplied from the sea, strained through the pores of the earth; the second has endeavoured to demonstrate that the clouds alone are sufficient for the supply. Both sides have called mathematics to their aid; and, in the opinion of the by-standers, have shewn, that long and laborious calculations can at any time be made, by men of science, to obscure bath sides of a question. VOL. IV. B De La Hire, to shew that the clouds, by rain, are insufficient for the production of rivers, asserts, that rain never penetrates the surface of the earth above sixteen inches. Hence he infers, that it is impossible for it, in many cases, to sink so as to be found at such considerable depths below, as to give rise to rivers. He grants, indeed, that rain water is often seen to mix with rivers, and greatly to swell their currents; but that a much greater part of it evaporates. "If, says he, the whole earth were covered with water, evaporation alone would be sufficient to carry off two feet nine inches of it in a year: and yet we know very well, that hardly nineteen inches of rain water fall in that time; so that evaporation would carry off a much greater quantity than is ever known. The small quantity of rain water that falls in a year is therefore but barely sufficient for the purposes of vegetation. Two leaves of a fig-tree have been found, by experiment, to imbibe from the earth, in five hours and a half, two ounces of water. This implies the great quantity of fluid that must be exhausted in the maintenance of one single plant. Add to this, that the waters of the river Rungis do, by calculation, rise to fifty inches, and the whole country from whence these waters are supplied, never receives fifty inches in the year, by rain. Besides this, there are many saltsprings, which are known to proceed immediately from the sea, and are subject to its flux and reflux. In short, wherever we dig beneath the surface of the earth, except in a few instances, water is to be found; and it is this subterraneous water, which is raised into steam, by the internal heat of the earth, that feeds plants. It is this water that distils through theinterstices of the earth; and there cooling, forms fountains. It is this subterraneous water also that forms the chief supply of rivers, and pours plenty over the whole earth." See Hist. de l'Acad 1713. p. 56. Dr. Hally, on the contrary, asserts, that the vapours which are exhaled from the sea, and driven by the winds upon land, are more than sufficient to supply, not only plants with moisture, but also to furnish a sufficiency of water to furnish the greatest rivers. He procured an estimate to be made of the quantity of water emptied at the mouth of large rivers; and of the quantity also, raised from the sea by evaporation; and it was found, that the latter by far exceeds the former. This calculation was made by Mr. Mariotte. By him it was found, upon receiving such rain as fell in a year, in a proper vessel, fitted for that purpose, that, one year with another, there might fall about twenty inches of water upon the surface of the earth throughout Europe. It was also computed, that the river Seine, from its source to the city of Paris, might cover an extent of ground, that would supply it annually with above seven billions of cubic feet of this water, formed by evaporation. But, upon computing - the quantity which passed through the arches of its bridges in a year, it was found to amount to only two hundred and eighty millions of cubic feet, which is not above a sixth part of the former number. Hence, therefore, it appears, that this river may receive a supply brought to it by the evaporated waters of the sea, six times greater than what it gives back to the sea by its current: and therefore, evaporation is more than sufficient for maintaining the greatest rivers, and supplying the purposes of vegetation. 1 |