Galilei, Galileo, Mechanics, 1665

Table of figures

< >
[Figure 1]
[Figure 2]
[Figure 3]
[Figure 4]
[Figure 5]
[Figure 6]
[Figure 7]
[Figure 8]
[Figure 9]
[Figure 10]
[Figure 11]
[Figure 12]
[Figure 13]
[Figure 14]
[Figure 15]
[Figure 16]
[Figure 17]
[Figure 18]
[Figure 19]
[Figure 20]
[Figure 21]
[Figure 22]
[Figure 23]
[Figure 24]
[Figure 25]
[Figure 26]
[Figure 27]
[Figure 28]
[Figure 29]
< >
page |< < of 40 > >|
1D hath the ſame proportion to the Reſiſtance made by the Weight
A
, in the point C: as the Diſtance B C hath to the Diſtance C D,
whereby
it's clear, that the nearer the Fulciment E ſhall approach
to
the Term B, encreaſing the proportion of the Diſtance D C to
the
Diſtance C B, the more may one diminiſh the Force in D which
is
to raiſe the Weight A.
And here it is to be noted, which I ſhall
alſo
in its place remember you of, that the benefit drawn from all
Mechanical
Inſtruments, is not that which the vulgar Mechanitians
do
perſwade us, to wit, ſuch, that there by Nature is overcome, and
in
a certain manner deluded, a ſmall Force over-powring a very
great
Reſiſtance with help of the Leaver; for we ſhall demonſtrate,
that
without the help of the length of the Leaver, the ſame Force,
in
the ſame Time, ſhall work the ſame effect.
For taking the ſame
Leaver
B C D, whoſe reſt or Fulci­
ment
is in C, let the Diſtance C D
6[Figure 6]
be
ſuppoſed, for example, to be
in
quintuple proportion to the
Diſtance
C B, & the ſaid Leaver to
be
moved till it come to I C G: In
the
Time that the Force ſhall have
paſſed
the Space D I, the Weight
ſhall
have been moved from B
to
G: and becauſe the Diſtance
D
C, was ſuppoſed quintuple to the other C B, it is manifeſt from
the
things demonſtrated, that the Weight placed in B may be five
times
greater then the moving Force ſuppoſed to be in D: but now,

if
on the contrary, we take notice of the ^{*} Way paſſed by
the
Force from D unto I, whilſt the Weight is moved from B unto
G
, we ſhall find likewiſe the Way D I, to be quintuple to the Space
B
G.
Moreover if we take the Diſtance C L, equal to the Diſtance
C
B, and place the ſame Force that was in D, in the point L, and
in
the point B the fifth part onely of the Weight that was put there
at
firſt, there is no queſtion, but that the Force in L being now
equal
to this Weight in B, and the Diſtances L C and C B being
equall
, the ſaid Force ſhall be able, being moved along the Space LM
to
transfer the Weight equall to it ſelf, thorow the other equall
Space
B G: which five times reiterating this ſame action, ſhall tranſ­
port
all the parts of the ſaid Weight to the ſame Term G: But
the
repeating of the Space L M, is certainly nothing more nor leſſe
then
the onely once meaſuring the Space D I, quintuple to the
ſaid
L M.
Therefore the transferring of the Weight from B to G,
requireth
no leſſe Force, nor leſſe Time, nor a ſhorter Way if it
wee
placed in D, than it would need if the ſame were applied
in
L: And, in ſhort, the benefit that is derived from the length of
the
Leaver C D, is no other, ſave the enabling us to move that

Text layer

  • Dictionary
  • Places

Text normalization

  • Original
  • Regularized
  • Normalized

Search


  • Exact
  • All forms
  • Fulltext index
  • Morphological index