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The herds that graze, the flocks that nip the plain,
And scaly natives of the watery reign.

These hold ten thousand wonders to the sight,
Which prompt inquiry and inspire delight;
Relations-properties-proportions-ends-
Burst into light as her research extends;
Until unnumbered sparks around him fall

From the Great Source of Light, and Life, and All!
DR. L. BROWN.

QUESTIONS-1. How are the productions of nature divided? 2. What is said of the organization of animals? 3. Of vegetables? 4. What are fossils or minerals? 5. What do we know of the vital principle?

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LESSON 76.

Mineralogy.

An'alyze, to resolve a compound into its constituent parts, for the purpose of examination. Phys'ical, natural, relating to na

ture.

ALL the solid materials of which this globe of ours is composed have received the name of Minerals; and the science which makes us acquainted with the relations under which they present themselves to us, is distinguished by the title Mineralogy. These substances, without doubt, must have at all times attracted the attention of mankind; because from them alone are drawn the metals, stones, and other similar substances of indispensable use. But it is only very lately that the method of ascertaining the component parts of these substances was discovered, or that it was possible to describe them so as to be intelligible to others. From the ancients no information of any consequence on these topics is to be expected. The whole science of mineralogy has been created since the year 1770, and is at present advancing towards perfection with astonishing rapidity. New minerals are every day described and analyzed, collections are every where forming, and travels of discovery are succeeding each other without intermission. The fruit of these labours has been the discovery of several new earths

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and metals; besides a vast number of useful minerals which had been formerly unknown or disregarded.

Nothing at first sight appears easier than to describe a mineral, and yet in reality it is attended with a great deal of difficulty. It is obvious, that to distinguish a mineral from every other, we must either mention some peculiar property, or a collection of properties, which exist together in no other mineral. These properties must be described in terms rigidly accurate, which convey precise ideas of the very properties intended, and of no other properties. The smallest deviation from this would lead to confusion and uncertainty. Now it is impossible to describe minerals in this manner, unless there be a peculiar term for each of their properties, and unless this term be completely understood. Mineralogy, therefore, must have a language of its own; that is to say, it must have a term to denote every mineralogical property, and each of these terms must be accurately defined. The language of mineralogy was invented by the celebrated Werner, of Freyburg, and first made known to the world by the publication of his treatise on the External Characters of Minerals. The object of this philosopher was to invent a method of describing minerals with such precision, that every species could readily be recognised by those who were acquainted with the terms employed. For this purpose, it was necessary to make use of those properties only which presented themselves to our senses on inspecting the mineral. These accordingly were chosen, and called by Werner external characters; because they may be ascertained without destroying the mineral examined. These constitute the first division of the characters of minerals. To the second belong those which are derived from the chemical composition, or discovered by any chemical change which the mineral suffers; to the third are referred those properties which are afforded by certain physical characters, as electricity or magnetism; and to the fourth a few characters, derived from circumstances frequently observed with regard to a mineral, as the place where it is found, or the minerals by which it is usually accompanied.

QUESTIONS.-1. What are minerals? 2. What is mineralogy? 3. What is said of the knowledge which the ancients had of minerals? 4. What has been the state of this science since the year 1770? 5. How must minerals be described? 6. What was the object of Werner

174

CLASSIFICATION OF MINERALS.

10.

in inventing the language of mineralogy? 7. What was necessary for this purpose? 8. Why were they called external characters? 9. What are the three other divisions of the characters of minerals? What are the general external characters of minerals? (See Appendix.) 11. Particular external characters? 12. What farther descriptions are given?

LESSON 77.

Classification of Minerals.

Lap'idary, one who deals in gems, or precious stones.
Ductility, a quality of certain bodies, in consequence of which
they may be drawn out to a certain length without fracture.
Malleability, that property of metals which gives them the capa-
city of being extended and flattened by hammering.

MINERALS are usually arranged under four classes; earthy, saline, inflammable, and metallic. The earthy minerals contain all such as derive their qualities from the earths; and they are divided into genera, according to the particular earth which predominates in cach, or more properly, into families, according to their resemblance in external characters, as the diamond family, the ruby family, talc family, and others. The diamond, of which there is only a single species, is the hardest and most beautiful of all the mineral productions. When heated to the temperature of melting copper, and exposed to a current of air, it is gradually but completely combustible. It is wholly converted into carbonic acid, and therefore consists of pure carbon, as we have already mentioned. By means of diamond powder, this substance can be cut and polished upon a wheel in the same way as any other gems are wrought by emery. It is manufactured by jewellers into brilliants and rose diamonds; and is employed by glaziers for cutting glass; by lapidaries for cutting and engraving on the hardest gems, and in the finer kinds of clock work. Before the discovery of the Brazilian mines, diamonds were much more rare, and of course dearer than they have been since. In the year 1730, eleven hundred and forty-six ounces were brought to Europe; in consequence of which, the price of this article immediately fell three-fourths, and to prevent a still further depreciation, the Portuguese government restricted the number

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of slaves allowed to be employed by those to whom leases of these mines had been granted. The ruby family of minerals is composed of seven species. They are all extremely hard, and several of them highly valued on account of their beauty.

The saline minerals comprehend all the combinations of alkalies with acids which exist in the mineral kingdom: such are salt-petre or nitrate of potash; common rock salt, or muriate of soda; and sal-ammoniac, or the muriate of ammonia. Common salt is found in immense masses under the earth's surface in many countries, particularly in Poland, Hungary, and England. The salt-springs in some parts of the United States owe their origin to beds of fossil salt. The rain-water, which penetrates to their surface, effects the solution of a certain portion of them with which it comes in contact, and thus becomes, in some cases, it is said, ten times salter than the water of the sea. The inflammable minerals comprehend all combustible bodies, except metals and the diamond; and include sulphur, resins, bitumens, and graphite. Among the bitumens are found the several varieties of mineral coal that are used for fuel, gas-lights, and other purposes. At Pittsburgh in Pennsylvania there are inexhaustible quantities of coal of a superior quality; it is found also in other parts of the state, in some parts of New-York, and in Rhode-Island. It not only enhances the value of the lands in which it is found, and through which it must pass, but is a source of national wealth. In England there are vast beds of coal which often lie at the depth of a hundred feet beneath the surface of the earth. Near White-haven there are some coal mines that extend half a mile under the

sea.

The metallic minerals comprehend all the mineral bodies, that are composed either entirely of metals, or of which metals constitute the most considerable and important part. It is from the minerals belonging to this class that all metals are extracted; and for this reason they have been called ores. They are found in a native state, either simple, consisting only of one substance, or compound, when composed of two or more substances. We shall briefly describe a few of the most useful metals. The first is platina. This is the heaviest of metals, and is found among the gold ores of South America in the form of small grains or scales. Its colour is

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between steel-grey and silver-white, and its ductility and malleability are very great. From late improvements in the process of bringing it to a pure and malleable state, its price has been diminished, and its utility is becoming more generally acknowledged. Facts are continually brought to light by means of platina instruments, which, without it, might perhaps ever have escaped notice.

QUESTIONS.-1. What are the four classes of minerals? 2. What are earthy minerals and how are they divided? 3. What is said of the diamond? 4. What are saline minerals? 5. Inflammable? 6. Metallic? 7. To what do salt-springs owe their origin? 8. What is said of mineral coal? 9. What is said of platina? [NOTE. The United States possess abundant sources of some of the most useful minerals, and of the stones used in jewelry.]

LESSON 78.

Gold.

In'got, a mass of metal. Nitro-muriatic acid is formed by mixing one part of nitric and four parts of muriatic acid; it was known to the ancient alchymists, and called aqua regia.

GOLD is never found in a mineralized state; but it occurs native in many parts of the world, generally alloyed with a little silver or copper, and commonly in the form of grains. Most of the gold of commerce is obtained at present from Africa and the continent of America. It is the heaviest of all metals except platina, and although its tenacity is such that a wire of one tenth of an inch in diameter will support a weight of five hundred pounds without breaking, yet it possesses less tenacity than iron, copper, platina, or silver. It is ductile and malleable beyond any known limits. The method of extending it used by gold-beaters, consists in hammering a number of thin rolled plates between skins or animal membranes, upon blocks of marble fixed in wooden frames. A grain of gold has been extended to more than forty-two square inches of leaf, and an ounce, which, in the form of a cube, is not half an inch either high, broad, or long, is beaten under the hammer into a surface of one hundred and forty-six and a half square feet. There are gold leaves not thicker in some parts than the three hundred and sixtythousandth part of an inch; but on the wire used by the

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