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Natural Science.

COMMUNICATIONS for this Department should be addressed to I. F. CADY, Warren.

For the Schoolmaster.
Microscopic Parasites.

taining hundreds of spores. Whether this parasitic growth is the first cause of the disease, or whether a morbid condition of the plant furnishes the requisite condition for its promotion, may not be easy to decide. There can be no doubt respecting its destructive effects when once commenced. Numerous species of fungi have been found to infest the grape, the potato, parsnip, bean, cucum

And so of animals, insects and fishes. Some persons may know that their pet gold-fishes are doomed when once the "white fungoid disease"

Few persons, when they have seen a dead fly ber, tomato, corn and various other of our most fastened to the window pane by a growth of mould, valuable plants and fruits. The amount of spores have probably suspected that the vegetable growth produced by these defies all computation. They by which he was surrounded was the antecedent fill the air, and fall upon every spot of earth in and cause of his death, and not its consequent. thousands; and every where are ready, when a faAnd yet such appears to be the fact. Owing to vorable combination of circumstances takes place, Wherever a plant may some diseased or enfeebled condition of his physi- to germinate and grow. cal system the germs of vegetable life, which are grow its enemy is already present. As long as the forever present in the air, found a congenial soil, plant is perfectly healthy and vigorous it may postook root and flourished, and, in their growth, sibly resist attack, but the first show of feebleness choked the waning powers of life in their victim, or injury may open the gates for its destruction. and bound him to his place as effectually as did the iron crop upon the tomb of Polydorus, which is so graphically described by the Latin poet. The universality of parasitic life and its almost makes its appearance among them. The fly glued infinite variety of forms, as revealed by the micro-to the window pane, and the silk-worm blasted by scope, is almost startling. It finds support through- the Botrytis bassiana, just as it is ready to assume out the animal and the vegetable world. Its seeds the form of a chrysalis may serve as specimens of are distributed every where, and when circum- the fate to which insects are exposed even when stances favor, they are ready to start into growth they escape the beak and forceps of other everon man and beast, on reptile and insect. They de- watchful foes. fy all extremes of climate. They will endure the heat of the tropics, and will flourish amid the polar snows. They infest the food we eat, attack our growing esculents, infest our domestic animals, consists wholly of a well-defined vegetable growth. destroy our choicest fruits, and finally sow themselves in our very flesh, producing there, as everywhere, the work of disease and ruin.

But it appears that we ourselves are not exempt from the common liability. We suppose that it is generally known that the substance called yeast

It is not, probably, as generally known that this kind of growth is sometimes developed in the human body, as in the disease called Diabetes, and Leaving out of view all consideration of animal in certain diseases of the stomach, as has been parasites, the prevalence, and the destruction proved by a microscopic examination of its concaused by those of a vegetable character are suffi- tents obtained by vomiting. The Ringworm, which cient to fill us with surprise. Even the very snow attacks the heads of children, has been found to furnishes a sufficient soil for the growth of fungi. consist of a Cryptogamous vegetable growth. The What is called the Gory-dew, a species of the spores from which this vegetation springs have mould-plant, will flourish so luxuriantly upon it been minutely examined, and found to have a wellthat extensive tracts of snow in the northern re-defined, rounded shape upon the upper surface, gions are said to be suddenly reddened by its and to be filiamentous beneath. growth. The common bead-mould, such as we It is conjectured that other forms of disease in see on stale bread, is found on decaying vegetable the human subject are derived from a like source. substances every where. It is said that "Some During the visitation of the cholera in England kinds of cheese derive their flavor from the quan- in 1854 some efforts were made to draw attention tity of fungous growth which spreads through the to the prevalence of fungi, in view of the probabilimass while it is yet soft." Blighted grapes are ty that the disease might be owing to the morbid covered with a fungous growth. The powdery sub-condition of the articles used for food, or, perhaps, stance with which they are covered, under the mi- to the development of such growths in the victims croscope, proves to be fungi whose filiaments are of this dreadful scourge. And, in view of the fact so closely interwoven as to entirely cover the skin that an impaired condition of the processes of nuof the fruit. What is known as the "potato dis- trition and a slackening of the vital processes ease" has been found to be accompanied by fun- would furnish the most favorable conditions for gous vegetation. The leaves of an infected stalk the planting of the spores and the development of are found to be covered more or less with a fine the fungi, and that the disease found its most nuwhite powder, every atom of which, under the mi-merous victims among the poor and vicious, where croscope, proves to consist of a double cell con- vital degeneration most prevailed, the conjecture

certainly does not want plausibility. An English to look at some complementary color, when the physician of note has also expressed the opinion natural state of the eye is restored. So the pear

that "That dreadful disease known as cancer will, no doubt, ultimately prove of vegetable growth, or a degeneration of the nutritive animal cell into that of a fungoid vegetable cell."

For the Schoolmaster.

The Sense of Taste.

1. F. C.

taster rinses his mouth with water, in order to appreciate the flavor of the next lot offered for the prize.

In regard to the development of this sense, it is desirable that it be left in its natural, unperverted state. To this end, let all spices and all stimulants in food be avoided, so that articles unseasoned (except with salt) may always be palatable: let THE sense of taste is nearly akin to that of smell, children grow up ignorant of the taste of pepper, though the means by which the two senses are af-mustard, cloves and allspice. When a child does fected differ. The former is excited by the contact not relish his food without these, he ought not to of soluble substances themselves with its locality. eat; he is not hungry, either through satiety or the tongue and the mouth: the latter by particles exhaled from volatile substances.

One noticeable fact with regard to this sense is, that substances at first distasteful, come at last, through frequent tasting, to be relished. An example of this is to be seen in the tomato, and in the olive. These fruits are at first unpleasant, or even disgusting, to many persons, who yet after repeated trials acquire for them a strong liking.

A lamentable perversion of this sense is to be seen in the unnatural taste for tobacco and for cigars so prevalent. That these drugs agree with the normal taste of any person, seems too monstrous to be believed, though they are undoubtedly less repulsive to some palates than to others. Opium is also so filthy in appearance and exhales so rank an odor, that the wonder is that it could ever have been chewed long enough for its exhilarating effects to be discovered; much greater wonder is it that the first loathing should ever be changed into a strong relish.

some derangement of the system. It is desirable that a child should never contract a liking for pastry, or for pork in any of its forms, and that bread made with either "soda" or "saleratus" should be distasteful to it. Above all, it should never taste of spirituous drinks, or of any prepation of morphine, whether in the form of "Paregoric," or a "Carminative," or a "Cordial."

The food provided by nature for the infant is pleasant to its taste; so in early childhood is the bread and the milk with which it is fed, so are apples, pears, peaches, cherries and the various berries, as the strawberry, raspberry and blackberry. All of the articles of food just mentioned are easy of digestion and all are agreeable to the taste.

Now not only are opium and tobacco distasteful to the young, and to any palate in its natural state, but also many poisonous compounds and extracts, used as drugs or as medicines, corrosive-sublimate, tartar-emetic, the salts of copper, and the alkaloids, as strychnine and morphine, of which there are said to be now nearly a hundred, the most of which are intensely bitter and very poisonous. We may add to this list the nauseous and caustic alkalies.

The proper explanation of this wonderful change is to be found in considering the appetites, when it will be seen that the gratification of an artificial appetite is often followed by a depression and by a craving which is satisfied only by what increases it, and the poor subject in whom it resides finds himself going on, each day, from bad to worse. This strong abnormal appetite arising in the sys-rious to health? tem overpowers the natural distaste for the weed

In view of these facts is it not logical, when, prior to any experience of its effects on the body, we find a substance unpleasant to the taste, to consider it as probably poisonous, or, at least, as inju

The final cause of this sense seems to be to make

or the drug, and substitutes in its place as unna- the taking of our food pleasant to us, rather than tural a liking.

irksome, so that by the innocent pleasures of the table the mind may be recalled from care and from business, and, cheerful conversation arising, the stomach may be allowed that share of nervous influence which is needed for thorough digestion.

K.

One harmless and even useful way of employing this sense is in judging of and comparing the flavots of different kinds of fruit. As the many varieties of pears and grapes are brought before the public the better sorts are called out, and these are not only better flavored but more easily digested. WE learn that Mr. Wm. C. Burlingame has been Horticultural societies not only supply us with a appointed (and has already entered upon the dularger assortment of delicately flavored fruits, but ties of) master of the Grammar School of Woonalso exert a happy influence on the public health. socket. Mr. Burlingame has already a good meaFruit-tasters at horticultural exhibitions find the sure of experience in teaching, which, with his keenness of the palate blunted by successive tast-native energy and love of the work, we doubt not ings. This is analagous to what happens to the will assure him pleasing success. If the profeseye on looking at many pieces of goods all some sion of the teacher is to be elevated and enjoy a shade of the same color; the colors lose their rank among others, we must have men and women brightness. The remedy in the case of the eye is, who love the work.

Written Examinations.ject of the proposition, "Which is." Rule: The subject of, &c.

COMMUNICATIONS for this Department should be addrassed to A. J. MANCHESTER, Providence.

GRAMMAR.

In its conjunctive relation it is a subordinate connective and connects the subordinate clause "which is" with the substantive part of "whatever." Rule: Subordinate connectives connect,

I. Write the full declension of ox, cargo, man- &c.

servant.

"That" is a pro-sentence word, standing for "Marvelous are Thy works"; as a substantive it is of the third person, singular number, neuter gender, objective case, and is the object of "knoweth." Rule: Transitive verbs, &c.

II. In two different propositions use the same word as an adjective and as a noun. In three different propositions use the same word as a noun, adjective and adverb. III. Use the following words, in as many sen- "Worth" is an adjective denoting value, it takes tences, as prepositions: but, since, concerning, no other form, is of the positive degree, and with save, till, during, notwithstanding, athwart, respect-"is" constitutes a part of the grammatical prediing, regarding. cate. Rule: The adjective "worth " is used

IV. Write a sentence containing the verb teach with the copula to help form the predicate. of the potential mode, past perfect tense, second "Dollars" is a common noun, third person, pluperson, singular number, passive voice; then ex-ral number, nominative case, and with "is worth " press the same thought, changing the voice of the completes the grammatical predicate. Rule: A verb but retaining the manner and the time of the noun used with "is worth" to complete the preexpression. dicate must be in the nominative case.

V. Write five sentences containing errors, point out those errors and state why they are such.

VI. Write sentences-1. Containing the verb promote, subjunctive mode, past perfect tense, passive voice. 2. Containing ours used in an adjective and substantive relation. 3. A proper noun, adjective of the comparative degree, and mine in two relations. 4. Containing an interjection, a verb with a nominative before and after it, an adjective of the superlative degree, a preposition and a coördinate connective. 5. Containing two adjective clauses, one substantive clause and one adverbial clause.

"Yard" is a common noun, third person, singu lar number, objective case, without a governing word expressed. Rule: Nouns denoting distance, measure, &c., are in the objective case without a governing word expressed.

X. Correct the following sentences that are incorrect:

1. Who are you looking for?

2. They that honor me, 1 will honor.

3. Avoid lightness and frivolity; it is allied to folly.

4. Whom do you expect?

5. He is a man whom everybody says is entitled

VII. Analyze the sentence-Please to excuse to respect. my son who is necessarily late.

VIII. Parse what and whoever in the following: I saw what he had. Whoever will may come.

IX. Whatever is, is right. Marvelous are Thy works, and that my soul knoweth full well. The cloth is worth five dollars a yard.

CRITICISE THE PARSING.

6. John says to James, "My head is the largest."

7. She is a pupil whom her classmates love. 8. They were both unfortunate, but neither were to blame.

9. He intended to have called on you.

10. That is the boy whom we think deserves the

"Whatever" is a compound relative pronoun, prize. used in an adjective, substantive, pronominal and conjunctive relation.

GEOGRAPHY.

I. 1. Name the different waters bordering upon

In its adjective relative it is a limiting adjective, Spain. 2. Upon Michigan. 3. Scandinavian Pe(the) not compared and belongs to the substantive ninsula. 4. Turkey in Europe. 5. Russia. part of "whatever," (thing). Rule: An adjective 11. 1. Name five rivers that flow into the Arcor participle, &c. tic ocean. 2. Five that flow into the Pacific ocean.

In its substantive relation it is a common noun 3. Ten that flow into the Mississippi river. 4. (thing), third person, singular number, neuter Five that flow into the Indian ocean. 5. Five that gender, nominative case and is the subject of the flow into the Amazon river. preposition- "The thing is right." Rule: The subject of a proposition, &c.

III. 1. Trace the water route from Vienna to Berlin. 2. Thence to St. Petersburg.

In its pronominal relation (which) it is of the IV. 1. Name five mountain chains of North third person, singular number, neuter gender and America. 2. Three of South America. 3. Five refers to the substantive part of "whatever," for in Europe. 4. Five in Asia. 5. Five in Africa. its antecedent with which it agrees in gender, num- V. 1. Name the highest mountain peak in Asia. ber and person. Rule: The relative must agree, 2. In Europe. 3. In Africa. 4. In North Ameri&c. It is of the nominative case and is the sub-ca. 5. In South America.

VI. 1. Give the latitude of New Orleans. 2. Quebec. 3. Rio Janeiro. 4. St. Petersburg. 5. London. 6. Paris. 7. Constantinople. 8. Washington. 9. Vienna. 10. Pekin.

Mathematics.

COMMUNICATIONS for this Department, if relating to

VII. 1. Trace the water route from San Fran- the higher branches, should be addressed to J. M. Ross, Lonsdale; otherwise to N. W. DEMUNN, Providence.

cisco to Canton. 2. Thence to Hamburg. 3. Thence to Cincinnati.

VIII. 1. Bound the North Frigid Zone. 2. Mediterranean Sea. 3. Missouri. 4. Desert of Sahara. 5. France.

IX. 1. Locate five large cities in British America. 2. Four in Brazil. 3. Five in France. 4. Five in Russia. 5. Five in the British Isle. 6. Three in China. 7. Three in Hindostan. 8. Five

in Africa. 9. Five in Virginia. 10. Five in Cen-
tral Europe.

X. 1. Name the products of Barbary. 2. Of
China. 3. Of Brazil. 4. Of the East Indies.
Of Hindostan.

MENTAL ARITHMETIC.

For the Schoolmaster.
Solutions of Problems in April Number.

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FALL RIVER, April 9, 1861. Mr. Editor:- I have prepared the following solutions of the problems in the April number.

ALGEBRAIC QUESTION.

L. B.

Put x, y for the means, and the terms are —, x, y

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y

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By conditions,

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1. I bought an orange, peach and apple for 11 cents. The orange cost 1 times as much as the peach and 1 times as much as the apple. What was the cost of each?

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2. I bought an orange, peach and apple for 15 which gives 3(

cents. The orange cost 1 4-5 times as much as the peach, and the peach cost 3 times as much as the apple. What was the cost of each?

.

3. I bought an orange, peach and apple for 12 cents. The orange cost as much as the apple and peach together, and the peach cost twice as much as the apple. What was the cost of each?

4. I bought an orange, peach and apple for 18 cents. The orange cost 2 2-5 times as much as the apple, and the peach cost 5-6 as much as the orange. What was the cost of each ?

5. I bought an orange, peach and apple for 11 cents. The orange cost 5 cents, one-third of which was the difference between the price of the peach and the apple,-the peach costing the more. was the cost of each?

What

-) = 7(x + y); or, by divid

xy ing by (x+y) and reducing, 3(x2+ y) = 10ry. By (1), we have y = √(x2+24x), ... 3(2x2+24x)= 10x√(x2+24x). Dividing by x and squaring, we get a quadratic equation, which gives x=3 or -27. From either of these values we find y =±9. The terms corresponding to these roots are

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1. Let ny (ax) + n√ (a−x) = 2s=b, and n√(a + x)—n√(a — x) = 2z, adding and subtracting, we shall have, after divid6. I bought an orange, peach and apple for 93 ing by 2, "√ (a + x) = s +2, * √ ( a − x ) = s −z; cents. The peach cost 1 times as much as the therefore (a + x) = (s + z)", (a—x)=(s — 2)n, •'• apple and 3-7 as much as the orange. What was |2a = (8 + 2)" + (s-z)". The even terms in the

the cost of each?

n

7. I bought an orange, peach and apple. The developments of s + 2)" and (s—2)n will cancel orange cost three times as much as the apple, and each other, and, when n does not exceed 5, the the apple cost one-half as much as the peach. The equation is quudratic. Having found the value of difference of price between the orange and the 2, x is easily determined. peach was two cents. What was the cost of each?

8. I bought an orange, peach and apple for 12 cents. The orange cost three times as much as the peach, and the apple 1-5 as much as the orange and peach together. What was the cost of each? 9. I bought an orange, peach and apple for 10 cents. The peach cost 3 cents, and the apple cost 2.5 as much as the orange. What was the cost of each?

10. I bought an orange, peach and apple for 12 cents. The orange cost three times the difference of the price of the peach and the apple, and the apple cost one-third as much as the peach. What was the cost of each ?

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y=}[−3r2+ √ (8R2 + r2)].
de A!

[* These numbers do not satisfy the last condition of the equation, as they result from roots of Differentiating again, solution merely; the first and fourth series are

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the true answers: 1, 3, 9, 27, and 81, -27,-9, substituting in which the first valve of y the re-3, the former only in an arithmetical sense, and sult is negative, indicating a maximum. Having the latter in an algebraical; but it is given as an obtained y, we easily obtain algebraical question, and therefore both are admissable; and the solution is very ingenious.

2x = [8R2-2-2r√ (8R2 + r2)].

We present the following: Let x, xy, x, xy, If we suppose the radius of the smaller circle to represent the numbers. And the equations of the problem are

R

diminish to 0, then r = 0,.

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√2, 2x=R√2;

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(1)

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=- (2)

xy+xy 3

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y: 2x:: √2: R√2::1:2; that is, the maximum rectangle in a semicircle has its sides

Reducing first member of (2) to simplest form, we as 1:2, therefore the maximum rectangle in a circle

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[Similar solutions of the (7) and (8), are given whence y=3, . The first value of y substituted by L. B., who sends solutions of all the problems.]

QUERY.-Is the following reasoning correct?

in (1) gives x = 1; and the second value of y gives
=-81; and from the first values of and y
(x=1, y = 3,) combined we find the series 1, 3, 9, Since
27; and from the second (x=—81, y=},) the
series 81,-27, -9, -3. By combining the
values = =1, y=}, and x=-81, y=3, we get
geometrical series, of course, but incompatible
ones.-ED.]

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The plus sign gives x=60°, or 1200, and the mi- (1 + x) (1 + x) (1 − x)+(1 + x) (1 − x)(1 − x) = 0; fius sign gives x = 240°, or 300°.

Div. by (1+x) (1−x), 1+x+1−x=0;
Whence
2 = 0.

(8.)

"Required to find the greatest rectangle in

Where is the fallacy?

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