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search of truth, an imitation of the method of the geometers will carry a man further that all the dialectical rules. Their analysis is the proper model we ought to form ourselves upon, and imitate in the regular disposition and gradual progress of our enquiries, and even he who io ignorant of the nature of mathematical analysis uses a method somewhat analogous to it.

The composition of the geometers on their method of demonstrating truth, already found out, viz. by definitions of words agreed upon, by self-evident truths, and propositions that have been already demonstrated, is practicable in other subjects, though not to the same perfection; the patural want of evidence in the things theinselves not allowing it; but it is imitable to a considerable degree. I dare appeal to some writings of our own age and nation, the authors of which have been mathematically inclined. I shall add no more on this head, but that one who is accustomed to the methodical systems of truths, which the geometers have reared up in the several branches of those sciences which they have cultivated, will hardly bear with the confusion and disorder of other sciences, but endeavour, as far as be can, to reform them.

Thirdly, mathematical knowledge adds a maply rigonr to the mind, frees it from prejudice, credulity, and superstition. This it does two ways, Ist. by accustoming us to examine, and not to take things upon trust: 2ndly: by giving us a clear and extensive knowledge of the system of the world, which, as it creates in us the most profound reverence of the al"mighty and wise Creator to it frees us from the mean and narrow thoughts, which igoorance and supertition are apt to beget.

The mathematics are friends to religion, inasmuch as they charm the pagsions, res train the impetuosity of imagination, and parge the mind from error and prejudice. Vice is error, confusion, and false reasoning. end all truth is more or less opposite to it. Besides, mathematical studies may serve' for a pleasant entertainment for those hours, which young men are apt to throw away 'upon their vices; the delightfulness of them being such, as to make solitude not only easy but desirable.

What I have said may, serve to recommend mathematics for acquiring a vigorous constitution of mind; for which purpose they are as useful, as exercise is for procuring health and strength to the body.

I proceed now to show their vast extent and usefulness in other parts of knowledge. And here it might səffice to tell you, that mathematics is the science of quantity, or the art of reasoning about things that are capable of more and less, and that the most part of the objects of our knowledge are such ; as matter, space, number, time, motion, gravity, &c. We have but imperfect ideas of things without quantity, and as imperfect a one of quantity itsell, without the help of mathematics. All the visible works of God Almighty are made in number, weight, and measure ; therefore to consider them, we ought to understand arithmetic, geometry, and staties; and *the greater advances we make in those arts, the more capable we are of considering such things as are the ordinary objects of our conception. But this will further appear from particulars.

[To be continued.]

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[By John Baines, jun.)

............) “ PHILOSOPHERS,” says General Roy, “ are not yet agreed in opi. nion with regard to the exact figure of the earth; some contending that it is an ellipsoid; others a spheroid ; and some that it has no regular figure, that is, not such as would be generated by the revolution of a curve around its axis." But if the earth were in a state of fluidity at the commencement of its diurnal rotation, its figure, by the laws of gravity, must be that of an oblate spheroid. Accordingly the measurements of the French mathematicians in Lapland, in France, and at the equator, prove that the earth's equatorial diameter is greater than its axis. Colonel Mudge, who conducted the most extensive geodesic operations that were ever carried on in this country, makes the earth's equatorial diameter 41,897,040 English feet, and the polar 41,616,084.* Now, (by art. 217, Simpson's Fluxions, Davis's edition,) the periodical time in which a body will revolve round the earth at its surface, when its velocity is just a counterpoise for the force of gravity there, is equal to the square root of the quotient of the earth’s equatorial diameter in feet, divided by the space in feet which a heavy body falls from rest at the earth's surface, in the first second of time, multiplied by the circumference of a circle whose diameter is I. Hence, in the present example, 141897040: 1645X3:1415921614.0004 X3.1415925070D-53 secds.

But in circles having the same radii, the forces are inversely as the squares of the periodical times, (Ibid. art. 137,) and as the earth revolves on its axis in 23hrs. 56m. 48.=86164 seconds, we have the force of

gravity to the centrifugal force of a body at the equator arising from the earth's rotation, as to

1 1

or as 1 : which, by reduction, becomes as 5070-531 86164)

288.76 1155:4, extremely near. 1

5 A 75A Put A=methen by Simpson's Fluxions, art. 397),

+ 288.76

4 14 will express the difference between the earth's equatorial diameter and its polar, the polar diameter being considered as unity. This, in numbers, is •004328854+.0000064133.004335267; hence, the earth’s axis is 10 its equatorial diameter as 1 : 1•004335267, or as 692:695, extremely near. But the force of gravity at the equator is to that at either of the poles, inversely as the equatorial diameter is to the axis, that is, as 692: 695 ; consequently the diminution of gravity from the poles to the equator is

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Although the earth's polar diameter is here mentioned, it is not for the purpose making use of it. It will be seen, by the following process, that the ratio of tbe earth's diameters is found independently of any consideration but that of gravity,


chaths of the gravity at the poles. Hence it appears that gravitation is different in different latitudes ; and this difference arises from two causes, viz. the spheroidical figure of the earth, by which bodies on different parts of its surface are pot equally acted upon by the attractive power, in consequence of their pot being equally distant from its centre; and the centrifugal force arisiog from the rotation of the earth on its axis, by which the power of gravity is unequally diminished from the poles to the equator. However when the spheroid differs but little from a sphere, the diminution will be nearly as the square of the co-sine of the latitude. (Marrat's Mechanics, art. 449.) Therefore as 1 : 387525 (=the square of the co-side of the latitude of London 51° 30')::3 : 1•162575, the dimination of gravitation from the poles to London; hence 693.837425 will express the force of gravity at London, when that at the poles is expressed by 695, and that at the equator by 692.

These things being premised, we will proceed to determine the lengths of pendulums vibrating seconds at the earth's surface in different latitudes. Now it has been found by experiment that a pendulum vibrating seconds in the latitude of London, is 39.1 25 inches long, and that a body falls from rest in the first second of time 161'1 feet. At Pello, lat. 66° 48' N. M. de Maupertius found that the length of the seconds pendulum was 441.17 French lines, equal to 39.1824 English inches; and at Paris, latitude 48° 50' 10' N. 440-57 lines, equal to 39.1291 English inches.

Bat because the length of the seconds' pendulum, in any latitude, is directly as the force of gravity there, (Marrat's Mechanics, art. 345,) we can, by calculation, find the length of a pendulum vibrating seconds in any latitude, from the experiments which have been made. Thus,

As 693.837425 : 39:125::695: 39•19056 inches, the length of the seconds' pendulum at the poles ; and

A: 693.837425 : 39125.692 : 93-02 139 inches, the length of the pendulum vibrating seconds at the equator.

Again, because the space descended from rest by a heavy body in the Arst second of time is directly as the length of the seconds' pendulum, we


As 39•125 :1647 :: 39.19056 : 16:11025 feet per second, at the poles. As 39.125: 16,1::39·02139 : 16.04074 feet per second at the equator.

On these principles we have calculated the following Table of the lengths of the pendulum vibrating seconds, and the space fallen from rest by a heavy body in the first second of time on the earth's surface, for every third degree of latitude from the equator to the poles ; the first in inches and latter in feet. Length of the Space fallen by a heavy

Names of Places in or near the specified lat. body. 0° 39.0214 16.0407 Quito, in Peru; Libata, in Africa; Lingen, &c. 3 39:0218 16.0409 Bencoolen ; Passier, Borneo; Cuenca, &c. 6 39.0232 16.0415 Batavia; Queda, in Malacca ; Surinam, &c. 9 39.0255 16.0424 Trincomalé, in Ceylon; Sierra Leone; Truxillo. 12 39.0287 | 16.0437 Lima; Seringapatam; Island of Grenada, &c.




Names of Places in or near the specified lat.

Length of the



by a heavy

15 39.0327) 16.0454
18 39.0375 | 16.0474
21 39.0431 | 16.0497
24.39.0494 16.0523
27 39.0563 16.0551
30 39.0637| 16.0582
33 39.0716 16.0615
36 39-0794 16.0649
39 39.0884 16.0686
42 39.0971 16.0718
45 39:1060 16-0755
48 39.] 148 16•0791
51 39.1236 16•0828
54 39.1321 16.0863
57 39.1404 16.0897
60 39.1482 16.0929
63 | 39•1557 | 16.0960
66 39.1626 16.0988

39.1688 16.1013
72 39.1744 16.1036
75 | 39.1792 16:1056
78 39.1832 16.1073
8139.1864 | 16:1086
84 39.1887| 16:1095
87 39.1901 16•1101
90 39.1906 16.1103

Goree; Sana, Arabia; Manilla, Philippines.
Pegu, India; Kingston ; Arica, Peru, &c.
Surat ; Mecca; Kesho, in Tonquin, &c.
Canton; Havanna; Santos, in the Brazils, &c.
Monfalout, Egypt; Agra, India; Kelveh, Persia.
Cairo; Shiras; Lassa; New Orleans, &c.
Damascus; Tripoli; Charlestown, &c.
Gibraltar; Balk, Tartary; Plymouth, N. Amer.
Lisbon ; Badajos; Pekin; Washington, &c.
Bastia; Boston, N. America ; Rome, &c.
Belgrade; Halifax, Nova Scotia ; Oczakow,&e.
Strasburg; Vienna; Presburg, &c.
Antwerp; Breslau ; Dunkirk; London; Kiow.
York; Dantzic; Cavan, in Ireland, &c.
Riga; Aberdeen; Gotheborg, in Sweden, &c.
Christiana; Upsal ; Petersburg, &c.
Drontheim; Wasa, Finland; Beresov, Siberia.
Tornea, Sweden; Touroukhansk, Siberia, &c.
Avievara, Lapland ; Island of Vaigatch, &c.
North Cape, Lapland; S. part of Nova Zembla.
N.part of Nora Zembla; Lake Tamourskie, &c.
Cape Ceverovostot chnoi, in Siberia.
North part of the island of Spitzbergen.
Never visited by man.
The Poles.


Deductions. 1. The length of the seconds' pendulum is 16917, or nearly one-sixth of an inch greater at the poles than at the equator.

2. A heavy body falls":16951 of a foot, or 24 inches more in the first second of time at the poles than it does at the equator,

3. Pendulums which vibrate seconds at the earth's surface will lose time, when removed to places eonsiderably above it ; aud this is evidently owing to the dimination of the force of gravity. Thus, a pendulum which measures true time at the earth's surface, will lose one minute per day, when removed to the summit of a nountain whose perpendicular height is 14,600 feet. Hence, an allowance ought to be made when the ratio of the earth's diameters is calculated from observations made on the perdulum in different latitudes, if the elevation of the places of observation above the level of the sea be not the same,

4. If the earth revolved on its axis in 1 h. 24 m. 308. and '32 thirds, bodies on its surface would weigh pothing, but be as liable to fall off as to xiop on. If it revolved in more time than the above, they would stop on; but if it revolved in less, they would fly off.

5. If the earth’s rotation on its axis were stopped, the weight of bodies


4 at the equator would be increased

th, or 287.76

1151 part of the whole ; but at the poles, their weights would not be altered. Moreover, as the weight of a body at any place is always proportional to the force of gravity there, it follows, that a body which weighs one pound or 16 ounces at the poles, would only weigh 15.93095 ounces at the equator, while the earth is revolving on its axis, and 15.98631 ounces, if its rotation should be stopped.

Question 4. By W. Godward. It is required to find that number whose 6th power being taken from its 5th, shall have the greatest remainder possible?

Question 6. By Aaron Arch, York. To construct the plane triangle there are given the base, the vertical angle, and the ratio of a line from the vertex intersecting the base in a given angle, to the difference between the segments of the base made by the intersecting line.

QUESTION 5. By the same. Three men agree to drink a quart of ale out of the same tankard: it is required to determine the divisions of the vessel made by the surfaces of the liquor at the time each man ceased to drink, supposing the height 7 inches.

Original Poetry.

THE following verses were written by a learned friend of mine, a Physician, now no
more, whose practice was very extensive some years ago in this wapentake. His hours
of leisure were devoted much to the Roman muses, and I have by me other productions
of his, of the same kind, some of which have been printed. As these verses, I believe, have
never yet appeared in public, they are at your service, and I should be happy to see a
translation of them from some of your poetical correspondents.
Wapentake of Strafford and Tickhill, Feb. 1818.

QUANTis illecebris ornata hæc vallis amena,
Quas natura dedit!monachis vecordibus olim
Sacra fuit vanæque superstitionis alumnis.
Ecce sibi quales isti retinere solebant
Blanditias ! en, quas Pietas construxerat ædes
Devia, quam subitæ jam devenêre ruinæ !
Fallor? -an augurio tandem meliore Patronus

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