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Book I. that on which AG is, and join FH. therefore, in the triangles AFG,

CFH the sides FA, AG are equal to FC, CH, each to each, and 3. 15. I. the angle FAG, that a is EAB is equal to b. 4. I. the angle FCH; wherefore the angle

EN
AGF is equal to CHF, and AFG to the
angle CFH. to these last add the common

GA B
angle AFH, therefore the two angles
AFG, AFH are equal to the two angles F

CFH, HFA which two last are equal to-
C. 13. 1. gether to two right angles “, therefore

. CH D also AFG, AFH are equal to two right d. 14. I. angles, and consequently d GF and FH are in one straight line. and

because AGF is a right angle, CHF which is equal to it is also a right angle. therefore the straight lines AB, CD are at right angles to GH

PROP. 5. If two straight lines AB, CD be cut by a third ACE so as to make the interior angles BAC, ACD, on the fame fide of it, together less than two right angles; AB and CD being produced shall meet one another towards the parts on which are the two angles

which are less than two right angles. 2. 23. 1. At the point C in the straight line CE make a the angle ECF

equal to the angle EAB, and draw to AB the straight line CG at
right angles to CF. then because the angles ECF, EAB are equal
to one another, and that the
angles ECF, FCA are toge-

EY
ther equal to two right an-
gles, the angles EAB, FCA MC F K
are equal to two right angles.
but, by the hypothesis, the

N

D
angles EAB, ACD are toge-
ther less than two right an-
gles, therefore the angle FCA A OG B

H
is greater than ACD, and CD
falls between CF and AB. and because CF and CD make an angle
with one another, by Prop. 3. a point may be found in either of
them CD from which the perpendicular drawn to CF shall be greater
than the straight line CG. let this point be H, and draw HK pere
pendicular to CF meeting AB in L. and because AB, CF contain
equal angles with AC on the same side of it, by Prop. 4. AB and

b. 13. I.

CF are at right angles to the straight line MNO which bisects AC Book I. in N and is perpendicular to CF. therefore, by Cor. Prop. 2.. CG and KL which are at right angles to CF are equal to one another. and HK is greater than CG, and therefore is greater than KL, and consequently the point H is in KL produced. Wherefore the straight line CDH drawn betwixt the points C, H which are on contrary sides of AL, must necessarily cut the straight line AB.

PROP. XXXV. B. I. The Demonstration of this Proposition is changed, because if the method which is used in it was followed, there would be three cases to be separately demonstrated, as is done in the translation from the Arabic; for in the Elements no case of a Proposition that requires a different demonstration ought to be omitted. On this account we have chosen the method which Monf. Clairault has given, the first of any, as far as I know, in his Elements, page 21. and which afterwards Mr. Simpson gives in his, page 32. but whereas Mr. Simpson makes use of Prop. 26. B. 1. from which the equality of the two triangles does not immediately follow, because to prove that, the 4. of B. 1. must likewise be made use of, as may be seen, in the very fame case, in the 34. Prop. B. 1. it was thought better to make use only of the 4. of B. 1.

PROP. XLV. B. I.

The straight line KM is proved to be parallel to FL from the 33. Prop. whereas KH is parallel to FG by construction, and KHM, FGL have been demonstrated to be straight lines. a Corollary is added from Commandine, as being often used.

PROP. XIII. B. II.

Book Ii.

IN

N this Proposition only acute angled triangles are mentioned,

whereas it holds true of every triangle, and the Demonstrations of the cases omitted, are added; Commandine and Clavius have likewise given their Demonstrations of these cases.

PROP. XIV. B. II. In the Demonstration of this, fome Greek Editor has ignorantly inserted the words, “ but if not, one of the two BE, ED is the

Book II. “greater; let BE be the greater and produce it to F,” as if it was

of any consequence whether the greater or lesser be produced. therefore instead of these words, there ought to be read only, “ but if not, produce BE to F."

Book III.

PROP. I. B. III.

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EVERAL Authors, especially among the modern Mathemati

cians and Logicians, inveigh too severely against indirect, or Apagogic Demonstrations, and sometimes ignorantly enough; not being aware that there are some things that cannot be demonstrated any other way. of this the present Proposition is a very clear instance, as no direct demonstration can be given of it. because, besides the Definition of a circle, there is no principle or property relating to a circle antecedent to this Problem, from which either a direct or indirect Demonstration can be deduced. wherefore it is neceffary that the point found by the construction of the Problem be proved to be the center of the circle, by the help of this Definition, and some of the preceding propositions, and because in the Demonstration, this Proposition must be brought in, viz. straight lines from the center of a circle to the circumference are equal, and that the point found by the construction cannot be assumed as the center, for this is the thing to be demonstrated; it is manifest some other point must be assumed as the center; and if from this assumption an absurdity follows, as Euclid demonstrates there muft; then it is not true that the point affumed is the center; and as any point whatever was affumed, it follows that no point, except that found by the construction can be the center. from which the necessity of an indirect Demonstration in this case is evident.

PROP. XIII. B. III.

As it is much easier to imagine that two circles may touch one another within in more points than one, upon the same fide, than upon opposite fides; the figure of that case ought not to have been onitted; but the construction in the Greek text would not have suited with this figure so well, because the centers of the circles must have been placed near to the circumferences. on which account another construction and demonftration is given which is the fame with the second part of that which Campanus has translated

from the Arabic, where without any reason the Demonstration is Book III. divided into two parts.

PROP. XV. B. III. The converse of the second part of this Proposition is wanting, tho' in the preceding, the converse is added, in a like case, both in the Enuntiation and Demonstration; and it is now added in this. besides in the Demonstration of the first part of this 15th the diameter AD (see Commandine's figure) is proved to be greater than the straight line BC by means of another straight line MN; whereas it may be better done without it. on which accounts we have given a different Demonstration, like to that which Euclid gives in the preceding 14th, and to that which Theodosius gives, in Prop. 6. B. 1. of his Spherics, in this very affair.

PROP. XVI. B. III. In this we have not followed the Greek, nor the Latin translation literally, but have given what is plainly the meaning of the Propofition, without mentioning the angle of the semicircle, or that which some call the cornicular angle which they conceive to be made by the circumference and the straight line which is at right angles to the diameter, at its extremity; which angles have furnished matter of great debate between some of the modern Geometers, and given occasion of deducing strange consequences from them, which are quite avoided by the manner in which we have expressed the Proposition. and in like manner we have given the true meaning of Prop.31. B. 3. without mentioning the angles of the greater or lefser segments. these passages Vieta with good reason fufpects to be adulterated, in the 386. page of his Oper. Math.

PROP. XX. B. III. The first words of the second part of this Demonstration, " xexadeta di náms" are wrong translated by Mr. Briggs and Dr. Gregory “Rursus inclinetur,” for the translation ought to be « Rurfus inflectatur" as Commandine has it. a straight line is said to be inflected either to a straight, or curve line, when a straight line is drawn to this line from a point, and from the point in which it meets it, a straight line making an angle with the former is drawn to another point, as is evident from the go. Prop. of Euclid's Data; for thus the whole line betwixt the first and lalt points, is inflected

Book III. or broken at the point of inflexion where the two straight lines

meet. And in the like sense two straight lines are said to be inflected from two points to a third point, when they make an angle at this point; as may be seen in the description given by Pappus Alexandrinus of Apollonius Books de Locis planis, in the Preface to his 7. Book. we have made the expression fuller from the go. Prop. of the Data.

PROP. XXI. B. III. There are two cases of this Propofition, the second of which, viz. when the angles are in a fegment not greater than a semicircle, is wanting in the Greek. and of this a more fimple Demonstration is given than that which is in Commandine, as being derived only from the first case, without the help of triangles.

PROP. XXIII. and XXIV. B. III. In Proposition 24. it is demonstrated that the segment AEB must coincide with the segment CFD (see Commandine's figure) and that it cannot fall otherwise, as CGD, so as to cut the other circle in a third point G, from this, that if it did, a circle could cut another in more points than two. but this ought to have been proved to be impossible in the 23. Prop. as well as that one of the segments cannot fall within the other. this part then is left out in the 24. and put in its proper place the 23d Proposition.

PROP. XXV. B. III. This Proposition is divided into three cafes, of which two have the same construction and demonstration; therefore it is now dis vided only into two cases.

PROP. XXXIII. B. III. This also in the Greek is divided into three cases, of which two, viz. one, in which the given angle is acute, and the other in which it is obtuse, have exactly the same construction and demonstration; on which account the demonstration of the last case is left out as quite superfluous, and the addition of some unskilful Editor; befides the demonstration of the case when the angle given is a right angle, is done a round about way, and is therefore changed to a more simple one, as was done by Clavius.

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