Fabri, Honoré
,
Tractatus physicus de motu locali
,
1646
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Theorema
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11.
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Si
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triangulum BIG voluatur circa CA, in quam BH cadit perpendi
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culariter, ſitque BH axis per centrum grauitatis ductus, diuiſuſque in
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4.
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partes æquales B.F.E.D.H. centrum percuſſionis eſt in D
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; quod facilè de
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monſtratur; </
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id
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">nam IG in iſto motu deſcribit ſuperficiem cylindri, &
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triangulum GBI deſcribit, vt ſic loquar, ſectorem cylindri; </
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<
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">igitur im
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petus in IG eſt ad impetum in NM, vt ſuperficies curua terminata in I
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G, ad ſuperficiem terminatam in NM, ſub eodem ſcilicet angulo; </
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<
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">vel vt
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baſis pyramidis IG, ad baſim NM; igitur perinde ſe habet IG, ac ſi
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incumberet prædicta baſis, itemque NM, &c. </
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<
s
id
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">igitur ac ſi eſſet ſolida
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pyramis quadrilatera; ſed pyramidis centrum grauitatis eſt D, per
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Theorema 4. </
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Theorema
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12.
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Si idem triangulum GIB voluatur circa IG, centrum percuſſionis eſt in
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E, quod diuidit HB bifariam æqualiter
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; </
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<
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">quod vt demonſtretur, perinde
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ſe habet triangulum BGI circumactum, atque ſi ſingulis partibus in
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cumberent perpendiculares, quæ eſſent vt earumdem partium motus; </
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ſit autem triangulum BAC æquale priori; </
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">baſis cunei ABHKDC; </
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ducatur planum DBA, quod dirimat cuneum in duo ſolida, ſcilicet in
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pyramidem ABHKD, & ſolidum ABDC; </
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<
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">pyramis continet 2/3 totius
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cunei, vt conſtat; </
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id
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">eſt enim prædictus cuneus ſubduplus priſmatis, cuius
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baſis ſit HA, & altitudo ID; </
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<
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id
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">cuius pyramis prædicta continet 1/3; </
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<
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">igitur
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ſi priſma ſit vt 6. pyramis erit vt 2. & cuneus vt 3. igitur pyramis conti
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net 2/3 cunci; </
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<
s
id
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">igitur alterum ſolidum ABDC eſt 1/3 cunei; </
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<
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">cunei cen
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trum grauitatis idem eſt, quod trianguli HKD, per Corol. 1. Th.3.igi
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tur eſt in linea directionis MF.ita vt IM ſit 1/3 totius ID, per Th 3. py
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ramidis verò centrum grauitatis eſt in linea NG, ita vt IN ſit 1/4 totius
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ID, per Th.4. igitur ſi eſt NM ad ML, vt ſolidum ABDC ad pyra
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midem AHD, id eſt vt 1.ad 2. certè NI, & NL erunt æquales; </
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<
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id
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">ſed IN
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eſt 1/4 totius ID; igitur IL 1/2 ergo L dirimit æqualiter ID, quod erat
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demonſtr. </
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<
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id
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">ſit ID 12.IN 3.IM 4. IL 6. </
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Theorema
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13.
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Si voluatur ſector circa axem parallelum ſubtenſæ, determinari poteſt cen
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trum percuſſionis, dato centro grauitatis ſectoris, quod tantum hactenus in
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uentum eſt ex ſuppoſita circuli quadratura
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: </
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tenſa KM; </
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<
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id
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">diuidatur AI in tres partes æquales ADFI, item AH, in
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tres æquales AEGH, centrum grauitatis ſectoris non eſt in F, quod eſt
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centrum grauitatis trianguli AMK, ſed propiùs accedit ad H; </
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<
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etiam eſt in G, quod eſt centrum grauitatis trianguli ALN, ſed propiùs
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accedit ad A; </
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MHK ad 2/3 ſubtenſæ MK; </
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<
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<
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34. poteſt etiam haberi centrum grauitatis ſegmenti circuli; </
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<
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ſegmentum FCHI cuius centrum ſit B; </
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