Archimedes
,
Natation of bodies
,
1662
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to M D, as C Q to Q A: But L B is to B D, by 5 of
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Archimedes,
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before recited, as C D
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to D A: It is manifeſt therefore, by the precedent Lemma, that C D is to D Q, as L B is to
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B M: But as C D is to D Q, ſo is C M to M P: Therefore L B is to B M, as C M to M P:
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And it haveing been demonſtrated, that C M is to M P, as C E to E A; L B ſhall be to B M,
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as C E to E A. </
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>And in like manner it ſhall be demonstrated that ſo is N O to O F; as alſo the
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Remainders. </
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>And that alſo H K is to K E, as C E to E A, doth plainly appeare by the ſame
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5.
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of
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Archimedes
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: Which is that that we propounded to be demonſtrated.
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(a)
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By 4. of the
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ſixth.
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(b)
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By 11 of the
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fifth,
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(c)
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By 14 of the
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fifth.
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By 2. of the ſixth
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<
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>LEMMA. VI.</
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>And, therefore, let the things ſtand as above; and deſcribe
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yet another like Portion, contained betwixt a Right Line, and
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the Section of the Rightangled Cone D R C, whoſe Diameter
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is R S, that it may cut the Line F G in T; and prolong S R
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unto the
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L
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ine C H in V, which meeteth the Section A B C in
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X, and E F C in Y. </
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>I ſay, that B M hath to M D, a propor
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tion compounded of the proportion that E A hath to A C;
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and of that which C D hath to D E.</
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For, we ſhall firſt demonſtrate, that the Line C H toucheth the Section D R C in the
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Point C; and that L M is to M D, as alſo N F to F T, and V Y to Y R, as C D is to E D.
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And, becauſe now that L B is to B M, as C E is to E A; therefore, Compounding and Conver
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ting, B M ſhall be to L M, as E A to A C: And, as L M is to M D, ſo ſhall C D be to
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D E: The proportion, therefore, of B M to M D, is compounded of the proportion that
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B M hath to L M, and of the proportion that L M hath to M D: Therefore, the proportion
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of B M to M D, ſhall alſo be compounded of the proportion that E A hath to A C, and of
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that which C D hath to D E. </
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>In the ſame manner it ſhal be demonſtrated, that O F hath to
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F T, and alſo X Y to Y R, a proportion compounded of thoſe ſame proportions; and ſo in
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the reſt: Which was to be demonstrated.
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<
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>By which it appeareth that the
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L
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ines ſo drawn; which fall betwixt
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the Sections A B C and D R C, ſhall be divided by the Section E F C
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in the ſame Proportion.</
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>And C B is to B D, as ſix to fifteen.]
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For we have ſuppoſed that B K is
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double of K D: Wherefore, by Compoſition B D ſhall be to K D as three to one; that is, as
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fifteen to five: But B D was to K C as fifteen to four; Therefore B D is to D C as fifteen to nine:
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And, by Converſion of proportion and Convert
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ing, C B is to B D, as ſix to ſifteen.
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<
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>And as C B is to B D, ſo is
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E B to B A; and D Z to D A.]
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For the Triangles C B E and D B A being
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alike; As C B is to B E, ſo ſhall D B be to B A:
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And,
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Permutando,
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as C B is to B D, ſo ſhall
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E B be to B A: Againe, as B C is to C E ſo
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ſhall B D be to D A, And,
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Permutando,
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as
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C B is to B D, ſo ſhall C E, that is, D Z
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equall to it, be to D A.
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O</
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<
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>And of D Z and D A, L I and
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L A are double.]
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That the Line L A is
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double of D A, is manifeſt, for that B D is the Diameter of the Portion. </
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<
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>And that L I is
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dovble to D Z ſhall be thus demonſtrated. </
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<
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>For as much as ZD is to D A, as two to five:
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therefore, Converting and Dividing, A Z, that is, I Z, ſhall be to Z D, as three to two:
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