This is a table of type quadgram and their frequencies. Use it to search & browse the list to learn more about your study carrel.
quadgram | frequency |
---|---|
the quadrant of altitude | 211 |
the number of degrees | 99 |
the elevation of the | 88 |
p m p m | 85 |
the place of the | 85 |
the superficies of the | 80 |
the meridian of the | 77 |
the degree of the | 77 |
the length of the | 76 |
the center of the | 75 |
m p m p | 75 |
the hour of the | 68 |
one and the same | 68 |
elevation of the pole | 65 |
s s s s | 63 |
the complement of the | 60 |
of the quadrant of | 58 |
place of the sun | 55 |
hour of the day | 53 |
the distance of the | 52 |
the shadow of the | 51 |
the index of the | 51 |
superficies of the dyal | 50 |
the sine of the | 50 |
index of the hour | 50 |
the day of the | 49 |
the end of the | 48 |
the axis of the | 47 |
the height of the | 47 |
the measure of the | 46 |
the poles of the | 45 |
the point of the | 44 |
the declination of the | 44 |
the middle of the | 43 |
degree of the ecliptick | 43 |
day of the moneth | 42 |
early english books online | 42 |
number of degrees of | 41 |
to the tangent of | 41 |
quadrant of altitude to | 41 |
of the poles elevation | 40 |
the arch of the | 39 |
axis of the world | 39 |
with the other foot | 39 |
the motion of the | 39 |
the altitude of the | 38 |
on the other side | 38 |
meridian of the place | 37 |
the tangent of the | 37 |
the line of contingence | 36 |
the number thought upon | 36 |
altitude of the sun | 35 |
degrees of the equator | 34 |
the top of the | 33 |
the sun is in | 33 |
on the quadrant of | 33 |
the edge of the | 32 |
in the middle of | 32 |
to the point of | 32 |
the degrees of the | 32 |
of the hour circle | 32 |
the pole of the | 31 |
the foot of the | 31 |
of the hours of | 31 |
of altitude to the | 31 |
is the number of | 31 |
the difference of longitude | 31 |
parallel to the horizon | 30 |
from the center a | 30 |
in one and the | 29 |
declination of the sun | 29 |
the points of the | 29 |
the number of the | 29 |
the plain of the | 29 |
at the end of | 29 |
pass through the meridian | 28 |
in respect of the | 28 |
the horizon of the | 27 |
houre of the day | 27 |
in the lower figure | 27 |
the diameter of the | 27 |
the same number of | 27 |
the latitude of the | 27 |
in the superficies of | 27 |
the rest of the | 27 |
the point of shadow | 26 |
of the higher figure | 26 |
the globe till the | 26 |
the axeltree of the | 26 |
foot of your compasses | 26 |
the circle of the | 26 |
of degrees of the | 25 |
one of the feet | 25 |
of one of the | 25 |
proper meridian of the | 25 |
to the sine of | 25 |
the a clock line | 25 |
from the center of | 25 |
meridian of the plane | 25 |
and with this space | 24 |
the centre of the | 24 |
about the globe till | 24 |
the proper meridian of | 24 |
the intersection of the | 24 |
the a clock hour | 24 |
one foot of your | 24 |
a clock hour line | 24 |
on the north side | 24 |
of the axeltree rod | 23 |
one of the hours | 23 |
of degrees and minutes | 23 |
which is in the | 23 |
the side of the | 23 |
the semidiameter of the | 23 |
one foot of the | 22 |
the parts of the | 22 |
screw the quadrant of | 22 |
draw a straight line | 22 |
to the point b | 22 |
the lower end of | 22 |
end of the quadrant | 22 |
hour of the night | 22 |
meridian of the plain | 22 |
axeltree of the dyal | 22 |
set one of the | 22 |
number of degrees and | 22 |
point of the horizon | 22 |
turn about the globe | 22 |
the feet of the | 21 |
the circle of position | 21 |
degree of the equator | 21 |
the east side the | 21 |
and the index of | 21 |
find the hour of | 21 |
in the circle of | 21 |
the north or south | 21 |
set one foot of | 21 |
of the lower figure | 21 |
for the latitude of | 21 |
foot of the compasse | 21 |
the cusp of the | 20 |
the east or west | 20 |
degrees above the horizon | 20 |
of the elevation of | 20 |
foot of the index | 20 |
the globe and quadrant | 20 |
poles of the world | 20 |
the heigth of the | 20 |
of the figure above | 20 |
the time of the | 20 |
the same with the | 20 |
one to the other | 20 |
into two equal parts | 19 |
and the number of | 19 |
of the second book | 19 |
to find the hour | 19 |
east side the horizon | 19 |
the north side the | 19 |
line parallel to the | 19 |
the distances of the | 19 |
to the degree of | 19 |
in a straight line | 19 |
of the equator pass | 19 |
that number of degrees | 19 |
in the same manner | 19 |
one of the points | 19 |
when the sun is | 18 |
which is all one | 18 |
between the pole and | 18 |
all sorts of people | 18 |
and quadrant of altitude | 18 |
the houre of the | 18 |
characters represented either as | 18 |
the west side the | 18 |
so much the more | 18 |
by the side of | 18 |
the lines of the | 18 |
the equator pass through | 18 |
meridian line on the | 18 |
of the feet of | 18 |
in the line of | 18 |
is equall to the | 18 |
drawn from the center | 18 |
represented either as utf | 18 |
so many degrees as | 18 |
complement of the poles | 18 |
equator pass through the | 18 |
the poles elevation above | 18 |
same number of degrees | 18 |
how to make a | 18 |
the north and south | 18 |
height of the sun | 18 |
globe and quadrant of | 17 |
point of the compass | 17 |
at the same time | 17 |
right angles with the | 17 |
it is to be | 17 |
as you see in | 17 |
lower end of the | 17 |
from the meridian of | 17 |
the sun in the | 17 |
to the east side | 17 |
plain of the horizon | 17 |
measure of the angle | 17 |
poles elevation above the | 17 |
the beginning of the | 17 |
by reason of the | 17 |
by help of a | 17 |
that is to say | 17 |
after the french way | 17 |
degrees of the equinoctial | 17 |
the east and west | 16 |
what degree of the | 16 |
and the brasen meridian | 16 |
of the meridian of | 16 |
parallel to the axis | 16 |
is the tangent of | 16 |
from the meridian line | 16 |
degrees and minutes of | 16 |
the globe of the | 16 |
the latitude of london | 16 |
the longitude and latitude | 16 |
the distance between the | 16 |
parallel to the index | 16 |
be the number of | 16 |
to the axis of | 16 |
first meridian and the | 16 |
the hour circle to | 16 |
the angle at the | 16 |
to find the rest | 16 |
every one of the | 16 |
to the latitude of | 16 |
to all sorts of | 16 |
the first meridian and | 16 |
centre of the earth | 16 |
by the help of | 16 |
come back to the | 15 |
is distant from the | 15 |
elevation above the plain | 15 |
a clock in the | 15 |
is in the zenith | 15 |
globe of the earth | 15 |
to the figure below | 15 |
from the point b | 15 |
between the first meridian | 15 |
to the meridian of | 15 |
sine of the poles | 15 |
heigth of the pole | 15 |
the points of shadow | 15 |
you see in the | 15 |
east point of the | 15 |
be the same with | 15 |
the position of the | 15 |
of the sun or | 15 |
the fiduciall edge of | 15 |
comprehended between the first | 15 |
point of the pin | 15 |
i turn the globe | 15 |
the use of the | 15 |
the line a b | 15 |
angles at the pole | 14 |
place one foot of | 14 |
of the sun in | 14 |
as you may see | 14 |
by the globes the | 14 |
a star of the | 14 |
of the fixt stars | 14 |
the globe to the | 14 |
shewing by the globes | 14 |
the pole is elevated | 14 |
the colure cut the | 14 |
the east point of | 14 |
of the pin ab | 14 |
latitude of the place | 14 |
be made to move | 14 |
on the west side | 14 |
many degrees as the | 14 |
north point of the | 14 |
the hour lines of | 14 |
and minutes of the | 14 |
the globes the solution | 14 |
the horizon and the | 14 |
the other side the | 14 |
at right angles with | 14 |
to the straight line | 14 |
the points b and | 14 |
globes the solution of | 14 |
and with the other | 14 |
the body of the | 14 |
and extend the other | 14 |
point of one of | 14 |
place of the dyal | 14 |
points of shadow cdf | 14 |
pole of the globe | 14 |
a line parallel to | 14 |
shall be the hour | 14 |
beams of the sun | 14 |
is parallel to the | 14 |
of the hour lines | 14 |
and the quadrant of | 14 |
the first point of | 14 |
the meridian line on | 14 |
what point of the | 14 |
so have you the | 14 |
on the top of | 14 |
till the index of | 14 |
measure of the side | 14 |
of the gnomonical semi | 13 |
of the compasse to | 13 |
straight ruler to the | 13 |
measure the distance of | 13 |
the placing of the | 13 |
is the same with | 13 |
on the east side | 13 |
the latitude of your | 13 |
i make a prick | 13 |
edge of the index | 13 |
it is in the | 13 |
the point in the | 13 |
the index points to | 13 |
by help of the | 13 |
number of degrees that | 13 |
but if it be | 13 |
on the south side | 13 |
compasse to the point | 13 |
the east side of | 13 |
the other foot to | 13 |
degree of the horizon | 13 |
fiduciall edge of the | 13 |
a b c d | 13 |
the making of a | 13 |
one from the other | 13 |
clock in the morning | 13 |
meridian comprehended between the | 13 |
to the complement of | 13 |
of the pin b | 13 |
the sun or star | 13 |
to the figure above | 13 |
colure to the meridian | 13 |
from the foot of | 13 |
so is the tangent | 13 |
lines from the center | 13 |
the north point of | 13 |
latitude of your place | 12 |
from the point of | 12 |
if your plane be | 12 |
of the pole above | 12 |
the sine of gr | 12 |
other foot of the | 12 |
you must turn the | 12 |
passes through the meridian | 12 |
line on the ceeling | 12 |
the radius of the | 12 |
and set it from | 12 |
pole of the world | 12 |
of the sun to | 12 |
in the center of | 12 |
horizon of the place | 12 |
go to the figure | 12 |
is elevated above the | 12 |
in the meridian line | 12 |
point in the horizon | 12 |
and screw the quadrant | 12 |
use of the globes | 12 |
be the hour lines | 12 |
foot of the compass | 12 |
the gnomonical semi circle | 12 |
to the elevation of | 12 |
on the right hand | 12 |
at right angles to | 12 |
i elevate the pole | 12 |
the line of the | 12 |
and there make a | 12 |
count the number of | 12 |
the sun and moon | 12 |
in the figure below | 12 |
the difference of the | 12 |
of the first meridian | 12 |
superficies of the dyall | 12 |
of the latitude of | 12 |
side of the quadrant | 12 |
which shall be the | 12 |
by how much the | 12 |
your line of chords | 12 |
for the making of | 12 |
of the half circle | 12 |
the point of one | 12 |
to finde out the | 12 |
the point b of | 12 |
lines drawn from the | 12 |
the compasse to the | 12 |
poles of the ecliptick | 12 |
is the distance of | 12 |
the houres of the | 12 |
east side of the | 12 |
elevated above the horizon | 12 |
globe till the index | 12 |
are the distances of | 12 |
a line of sines | 12 |
and the degree of | 12 |
images scanned from microfilm | 11 |
edge of the quadrant | 11 |
zenith line of the | 11 |
line of the plain | 11 |
to the line of | 11 |
find the colure cut | 11 |
the center of your | 11 |
keyboarded and encoded edition | 11 |
even for commercial purposes | 11 |
till the index points | 11 |
placing of the axeltree | 11 |
sine of the latitude | 11 |
of degrees that the | 11 |
that it may be | 11 |
draw a line parallel | 11 |
support to the early | 11 |
this keyboarded and encoded | 11 |
encoded edition of the | 11 |
upon the horizontall plain | 11 |
to the end of | 11 |
from proquest page images | 11 |
the work described above | 11 |
the beams of the | 11 |
degrees of the quadrant | 11 |
in a right line | 11 |
the pole above the | 11 |
the motions of the | 11 |
of the suns declination | 11 |
the early english books | 11 |
english books online text | 11 |
sun is in the | 11 |
markup reviewed and edited | 11 |
this phase i text | 11 |
therefore i elevate the | 11 |
the equinoctial and the | 11 |
be parallel to the | 11 |
the cursor of the | 11 |
point i of the | 11 |
text is available for | 11 |
of the equinoctiall circle | 11 |
on the terrestrial globe | 11 |
is available for reuse | 11 |
into the equinoctiall circle | 11 |
in the middle rule | 11 |
terms of creative commons | 11 |
the pole and the | 11 |
set off that distance | 11 |
keyed and coded from | 11 |
upon the hour of | 11 |
is the measure of | 11 |
all without asking permission | 11 |
height of the style | 11 |
it is easie to | 11 |
phase i text is | 11 |
according to the terms | 11 |
complement of the elevation | 11 |
the text can be | 11 |
and setting of the | 11 |
the institutions providing financial | 11 |
the right ascension of | 11 |
side of the plane | 11 |
of the work described | 11 |
institutions providing financial support | 11 |
to one of the | 11 |
of the number of | 11 |
tcp assigned for keying | 11 |
by the institutions providing | 11 |
financial support to the | 11 |
then i turn the | 11 |
houre points of the | 11 |
comprehended between the pole | 11 |
in the place of | 11 |
with this space come | 11 |
to the early english | 11 |
it ought to be | 11 |
these are the distances | 11 |
longitude and latitude of | 11 |
the terms of creative | 11 |
which in this example | 11 |
parallel to the line | 11 |
of the ecliptick is | 11 |
what place of the | 11 |
a table of the | 11 |
point b of the | 11 |
of the equator at | 11 |
degrees of the horizon | 11 |
encoded text transcribed from | 11 |
providing financial support to | 11 |
is a great circle | 11 |
of the parts of | 11 |
coded from proquest page | 11 |
the secant of the | 11 |
if it be a | 11 |
to the terms of | 11 |
assigned for keying and | 11 |
described above is co | 11 |
i text is available | 11 |
of the compasse upon | 11 |
ruler to the center | 11 |
text can be copied | 11 |
for keying and markup | 11 |
books online text creation | 11 |
line at right angles | 11 |
and coded from proquest | 11 |
work described above is | 11 |
from the point d | 11 |
from the proper meridian | 11 |
space come back to | 11 |
owned by the institutions | 11 |
the meridian line of | 11 |
proper to the plain | 11 |
and the same point | 11 |
text and markup reviewed | 11 |
as in the figure | 11 |
length of the day | 11 |
points to a clock | 11 |
to the height of | 11 |
online text creation partnership | 11 |
the tangent of gr | 11 |
in the point of | 11 |
the longitude of the | 11 |
a straight ruler to | 11 |
and markup reviewed and | 11 |
place of the earth | 11 |
edition of the work | 11 |
meridian and the brasen | 11 |
the meridian altitude of | 11 |
erect direct south dyal | 11 |
for example in the | 11 |
and encoded edition of | 11 |
perpendicular to the plain | 11 |
be the measure of | 11 |
and set off that | 11 |
by the coelestial globe | 10 |
the surface of the | 10 |
distances of the hour | 10 |
in the air i | 10 |
the equator at the | 10 |
bring the place of | 10 |
you have drawn about | 10 |
by the shadow of | 10 |
at the top of | 10 |
a dyal upon a | 10 |
to make an erect | 10 |
a pair of compasses | 10 |
and from the point | 10 |
the side a c | 10 |
points of the equinoctiall | 10 |
be made about the | 10 |
and use of the | 10 |
degrees contained between the | 10 |
that you have drawn | 10 |
rectifie the globe to | 10 |
line on the floor | 10 |
and from the center | 10 |
by so much the | 10 |
is the sine of | 10 |
in the latitude of | 10 |
is the elevation of | 10 |
of the superficies of | 10 |
made on the globe | 10 |
draw lines from the | 10 |
is to be noted | 10 |
comes to the meridian | 10 |
a line of chords | 10 |
on both sides the | 10 |
of altitude comprehended between | 10 |
day of the month | 10 |
altitude comprehended between the | 10 |
the beames of the | 10 |
part of the meridian | 10 |
upon the plain of | 10 |
the double of the | 10 |
perpendicular to the straight | 10 |
quadrant of altitude in | 10 |
arch of the quadrant | 10 |
one of the ends | 10 |
motion of the sun | 10 |
of the sun for | 10 |
find the heigth of | 10 |
how to make an | 10 |
index or zenith line | 10 |
to the place of | 10 |
turn the globe till | 10 |
to find by the | 10 |
distance of the meridian | 10 |
equall to the angle | 10 |
the bottome of the | 10 |
as you were taught | 10 |
to the west side | 10 |
is to the radius | 10 |
the point where the | 10 |
a paire of compasses | 10 |
the reclination of the | 10 |
to the center of | 10 |
to the right hand | 10 |
according to the quantity | 10 |
how to make the | 10 |
of the points of | 10 |
how is it that | 10 |
of the sun and | 10 |
of the plains latitude | 10 |
side of the horizon | 10 |
go back again to | 10 |
may be made to | 10 |
make an erect direct | 10 |
west side the horizon | 10 |
of the difference of | 10 |
quadrant of altitude comprehended | 10 |
in such sort that | 10 |
to the day of | 10 |
to find the heigth | 10 |
reclination of the index | 10 |
one of the sides | 10 |
upon the terrestrial globe | 10 |
point in the air | 10 |
i would know the | 10 |
draw the line a | 10 |
it may be done | 10 |
height of the pole | 10 |
line shall be the | 10 |
three points of shadow | 10 |
with a paire of | 10 |
the sun to the | 10 |
draw with the other | 10 |
have drawn about the | 10 |
back to the figure | 10 |
example in the point | 10 |
drawn about the point | 10 |
back again to the | 10 |
this space come back | 10 |
an arch of the | 10 |
between the equinoctial and | 10 |
the point of concourse | 10 |
to the horizon of | 10 |
based on the new | 9 |
and these are the | 9 |
the zenith and the | 9 |
must meet with it | 9 |
upon the superficies of | 9 |
aware of the process | 9 |
of the side a | 9 |
index points to a | 9 |
filling in of gaps | 9 |
encoded texts based on | 9 |
or tei g elements | 9 |
feet of the compasse | 9 |
created by converting tcp | 9 |
was divided into two | 9 |
in english were prioritized | 9 |
perpendicular to the horizon | 9 |
from the east point | 9 |
in oxford and michigan | 9 |
text with mnemonic sdata | 9 |
the tei in libraries | 9 |
creation partnership web site | 9 |
it to be the | 9 |
likelihood such instances will | 9 |
or corrected and characters | 9 |
of the suns course | 9 |
with mnemonic sdata character | 9 |
notably latin and welsh | 9 |
teams in oxford and | 9 |
to the east point | 9 |
a clock at night | 9 |
the text encoding initiative | 9 |
restraints of time and | 9 |
corrected and characters marked | 9 |
changes to facilitate morpho | 9 |
assumptions that can be | 9 |
on the new cambridge | 9 |
and there i make | 9 |
a works in english | 9 |
should bear in mind | 9 |
sine of your latitude | 9 |
work was chosen if | 9 |
texts based on the | 9 |
is to encode one | 9 |
was intended to range | 9 |
out by editorial teams | 9 |
based on the text | 9 |
released into the public | 9 |
selection was based on | 9 |
ecliptick the sun is | 9 |
while the overall quality | 9 |
with level of the | 9 |
at the text creation | 9 |
extent have been transformed | 9 |
all likelihood such instances | 9 |
point of the needle | 9 |
respectfully request that due | 9 |
project have been released | 9 |
in the straight line | 9 |
been looked at by | 9 |
transcription and basic encoding | 9 |
of any assumptions that | 9 |
as opposed to critical | 9 |
bear in mind that | 9 |
to range over a | 9 |
of your compasses in | 9 |
copies of the texts | 9 |
have been transformed into | 9 |
elements of known extent | 9 |
now take and use | 9 |
of tcp data is | 9 |
as illegible were corrected | 9 |
so much as the | 9 |
meet qa standards were | 9 |
limit of instances per | 9 |
and some readable characters | 9 |
transformed into placeholder characters | 9 |
given to their original | 9 |
the universities of michigan | 9 |
of the project have | 9 |
sent to external keying | 9 |
or which is all | 9 |
during phase of the | 9 |
general aim of eebo | 9 |
the overall quality of | 9 |
a compelling reason to | 9 |
and characters marked as | 9 |
the notches of the | 9 |
to produce large quantities | 9 |
but the number of | 9 |
of the ecliptick the | 9 |
with changes to facilitate | 9 |
for an anonymous work | 9 |
the text creation partnership | 9 |
sets were sent to | 9 |
publisher proquest to create | 9 |
of known extent have | 9 |
tcp is to encode | 9 |
the process of creating | 9 |
public domain as of | 9 |
and are to be | 9 |
a clock it is | 9 |
whichever is the greater | 9 |
is represented by the | 9 |
therefore chose to create | 9 |
companies for transcription and | 9 |
of the texts have | 9 |
is the length of | 9 |
for their own purposes | 9 |
into placeholder characters or | 9 |
can now take and | 9 |
but we respectfully request | 9 |
those which did not | 9 |
have been looked at | 9 |
on the image sets | 9 |
proquest to create accurately | 9 |
to the length of | 9 |
known extent have been | 9 |
text strings within braces | 9 |
of creating the tcp | 9 |
project restraints of time | 9 |
for transcription and basic | 9 |
external keying companies for | 9 |
be marked as illegible | 9 |
and encoded texts based | 9 |
circle of the horizon | 9 |
sets published by proquest | 9 |
lines shall be the | 9 |
text selection was based | 9 |
tcp data is very | 9 |
to their original source | 9 |
at the hour of | 9 |
were corrected where possible | 9 |
works are eligible for | 9 |
to the keyers to | 9 |
texts have been issued | 9 |
the project have been | 9 |
characters will be marked | 9 |
compelling reason to do | 9 |
was chosen if there | 9 |
to simplify the filling | 9 |
edition of a work | 9 |
in the first place | 9 |
nature of the print | 9 |
keying companies for transcription | 9 |
never have been looked | 9 |
on the left hand | 9 |
errors will remain and | 9 |
creating the tcp texts | 9 |
some errors will remain | 9 |
that point of the | 9 |
elements to simplify the | 9 |
their early english books | 9 |
accurately transcribed and encoded | 9 |
tei in libraries guidelines | 9 |
the usual project restraints | 9 |
the suns declination is | 9 |
line of the place | 9 |
up into the equinoctiall | 9 |
editorial teams in oxford | 9 |
published by proquest via | 9 |
of degrees from the | 9 |
therefore of any assumptions | 9 |
editions of a works | 9 |
not meet qa standards | 9 |
been released into the | 9 |
to page images in | 9 |
bring the lower end | 9 |
was proofread for accuracy | 9 |
the suns declination and | 9 |
will remain and some | 9 |
number of degrees contained | 9 |
tcp is a partnership | 9 |
credit and attribution is | 9 |
are eligible for inclusion | 9 |
divided into two phases | 9 |
was placed in heaven | 9 |
linked to page images | 9 |
a limit of instances | 9 |
should make clear that | 9 |
the print record of | 9 |
right ascensions and declinations | 9 |
page images in accordance | 9 |
the keyers to be | 9 |
north and south line | 9 |
vnto every pound of | 9 |
the halfe of it | 9 |
second or later edition | 9 |
range over a wide | 9 |
mind that in all | 9 |
elevation of the index | 9 |
accordance with level of | 9 |
of the print record | 9 |
the index or zenith | 9 |
and the arch of | 9 |
structural encoding based on | 9 |
a wide variety of | 9 |
phase of the project | 9 |
was then carried out | 9 |
produce large quantities of | 9 |
unicode or text strings | 9 |
the texts have been | 9 |
and use these texts | 9 |
encoded as gap s | 9 |
any remaining illegibles were | 9 |
or text strings within | 9 |
should be aware of | 9 |
of a works in | 9 |
of degrees contained between | 9 |
language title published between | 9 |
illegibles were encoded as | 9 |
tcp aimed to produce | 9 |
length of the night | 9 |
was based on the | 9 |
the hour of sun | 9 |
of michigan and oxford | 9 |
as it ought to | 9 |
the encoding was enhanced | 9 |
in this example is | 9 |
it must meet with | 9 |
to external keying companies | 9 |
to make a dyal | 9 |
the publisher proquest to | 9 |
up to a limit | 9 |
remain and some readable | 9 |
the texts were encoded | 9 |
the plains proper meridian | 9 |
mnemonic sdata character entities | 9 |
works in other languages | 9 |
diameter of the earth | 9 |
chose to create diplomatic | 9 |
be aware of the | 9 |
based on the image | 9 |
wide variety of subject | 9 |
cambridge bibliography of english | 9 |
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corrected where possible up | 9 |
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s s p m | 9 |
process of creating the | 9 |
between and available in | 9 |
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print record of the | 9 |
then carried out by | 9 |
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title published between and | 9 |
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any assumptions that can | 9 |
texts created during phase | 9 |
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transcribed and encoded texts | 9 |
new cambridge bibliography of | 9 |
first editions of a | 9 |
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mainly structural encoding based | 9 |
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the art of painting | 9 |
files to tei p | 9 |
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image sets published by | 9 |
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tei p using tcp | 9 |
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unicode or tei g | 9 |
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have it to be | 8 |
with the meridian line | 8 |
point at the hour | 8 |
the quantity of the | 8 |
to the meridian with | 8 |
through the notches of | 8 |
light of the sun | 8 |
the line bd of | 8 |
if you desire to | 8 |
from the noon line | 8 |
ocm this keyboarded and | 8 |
the mouth of the | 8 |
the sun above the | 8 |
will have it to | 8 |
of the longest day | 8 |
when the shadow of | 8 |
of the ecliptick on | 8 |
from the brasen meridian | 8 |
plane of the horizon | 8 |
hours after the french | 8 |
by little and little | 8 |
the hours after the | 8 |
for which account onely | 8 |
degrees on the quadrant | 8 |
onely but the number | 8 |
the meridian in the | 8 |
the meridian line ns | 8 |
account onely but the | 8 |
of the sun is | 8 |
reproduction of original in | 8 |
from west to east | 8 |
the upper end of | 8 |
you will have the | 8 |
one side or other | 8 |
altitude to the degree | 8 |
the point i of | 8 |
center of the equinoctial | 8 |
shadow of the index | 8 |
the sun comes to | 8 |
with this space go | 8 |
of the world is | 8 |
description and use of | 8 |
by joseph moxon hydrographer | 8 |
in the first meridian | 8 |
at one and the | 8 |
upon what point of | 8 |
parallel to the equator | 8 |
and draw the line | 8 |
shall be the number | 8 |
it will not be | 8 |
to the index or | 8 |
from the center o | 8 |
the parallel of the | 8 |
in the zenith line | 8 |
that the earth is | 8 |
the remainder is the | 8 |
of the equator that | 8 |
the space from the | 8 |
then turn about the | 8 |
estc r ocm this | 8 |
number of the hundreds | 8 |
found by the globe | 8 |
so is the sine | 8 |
set down in the | 8 |
which is proper to | 8 |
circle of the point | 8 |
your compasses in the | 8 |
place to the meridian | 8 |
the nearest to the | 8 |
one of the two | 8 |
center of the quadrant | 8 |
to the hour of | 8 |
point of shadow d | 8 |
sun above the horizon | 8 |
shadow upon the hour | 8 |
in the second figure | 8 |
and the first meridian | 8 |
be equal to the | 8 |
make marks in the | 8 |
you the number thought | 8 |
this space go to | 8 |
upon the equinoctiall plain | 8 |
the degree and minute | 8 |
how to finde the | 8 |
counted from the zenith | 8 |
r ocm this keyboarded | 8 |
angle at the pole | 8 |
the same distance from | 8 |
to the proper meridian | 8 |
the three points of | 8 |
and turn the globe | 8 |
right ascension of the | 8 |
if you would know | 8 |
and let it be | 8 |
as may be seen | 8 |
if you have been | 8 |
the meridian with the | 8 |
or tangent of gr | 8 |
i find the colure | 8 |
to the point o | 8 |
the zenith line of | 8 |
as was said before | 8 |
let fall a perpendicular | 8 |
center of the dyal | 8 |
of the compass upon | 8 |
the parallels of the | 8 |
of the sun above | 8 |
that it may not | 8 |
in which the sun | 8 |
foot of the compasses | 8 |
the manner of the | 8 |
one foot in the | 8 |
till you come to | 8 |
of the first figure | 8 |
divided into equal parts | 8 |
points of shadow c | 8 |
at the intersection of | 8 |
to every one of | 8 |
as long as you | 8 |
the ecliptick on the | 8 |
meridian altitude of the | 8 |
of the hundreds viz | 8 |
make a dyal upon | 8 |
on the line of | 8 |
is the declination of | 8 |
so that it may | 8 |
see in the figure | 8 |
from the point o | 8 |
out of the glasse | 8 |
which account onely but | 8 |
line from the point | 8 |
a quarter of an | 8 |
a line from the | 8 |
point of shadow c | 8 |
rising and setting of | 8 |
the north pole is | 8 |
quadrant of altitude and | 8 |
the places of the | 8 |
notches of the horizon | 8 |
middle of the gnomonical | 8 |
of the brasen meridian | 8 |
the index be made | 8 |
elevate the pole of | 8 |
the houre points of | 8 |
m p m horizo | 8 |
the side b c | 8 |
or other of the | 8 |
to the quantity of | 8 |
by this means you | 8 |
shewing the making of | 8 |
is to be made | 8 |
between the horizon and | 8 |
zodiac is to be | 7 |
right angles to the | 7 |
your compasses at the | 7 |
feet of the compasses | 7 |
to move upon the | 7 |
beames of the sunne | 7 |
of the equator passes | 7 |
of the angle c | 7 |
is the point of | 7 |
the suns place in | 7 |
declination of the index | 7 |
number on the quadrant | 7 |
first meridian comprehended between | 7 |
the place where you | 7 |
to the axeltree rod | 7 |
you may find the | 7 |
of the second magnitude | 7 |
in its true position | 7 |
setting of the stars | 7 |
degree and minute of | 7 |
into twelve equal parts | 7 |
an east and west | 7 |
same distance from the | 7 |
and the meridian of | 7 |
find the height of | 7 |
upon the poles of | 7 |
is perpendicular to the | 7 |
if the sun be | 7 |
to the top of | 7 |
quadrant of altitude rectified | 7 |
and the axeltree of | 7 |
on that side the | 7 |
the suns place given | 7 |
to find the right | 7 |
is to the tangent | 7 |
the other foot a | 7 |
setting of the sun | 7 |
the other side of | 7 |
the unformed stars belonging | 7 |
the horizon in the | 7 |
to draw a dyal | 7 |
the number of cards | 7 |
pole and the horizon | 7 |
meridian through the notches | 7 |
even with the space | 7 |
the afternoon hour lines | 7 |
if the index be | 7 |
of the horizon the | 7 |
to the end that | 7 |
opposite to the degree | 7 |
to finde the houre | 7 |
of the angle b | 7 |
the index a b | 7 |
or degree of the | 7 |
of the length of | 7 |
the plain it selfe | 7 |
with a pair of | 7 |
the number of leagues | 7 |
and the rest of | 7 |
then turn the globe | 7 |
the sun moon or | 7 |
which suppose to be | 7 |
ecliptick on the cusp | 7 |
quadrant of altitude the | 7 |
to those which are | 7 |
you have been exact | 7 |
to finde a number | 7 |
long as you can | 7 |
and latitude of the | 7 |
upon the quadrant of | 7 |
the point the sun | 7 |
a shadow upon the | 7 |
to the number of | 7 |
counting them by and | 7 |
azimuth of the sun | 7 |
the difference of right | 7 |
the north part of | 7 |
to be the same | 7 |
of the dyal is | 7 |
arch of a circle | 7 |
hour lines must be | 7 |
of the point b | 7 |
the zodiac must be | 7 |
a part of the | 7 |
meridian line of the | 7 |
as i have said | 7 |
placed in the heaven | 7 |
superficies of the earth | 7 |
for that is the | 7 |
that part of the | 7 |
the diameter of a | 7 |
the longest day is | 7 |
when you would find | 7 |
in forme of a | 7 |
the help of the | 7 |
of the sun given | 7 |
on the first meridian | 7 |
a straight line from | 7 |
to the secant of | 7 |
the line of declination | 7 |
right ascension and declination | 7 |
the equator passes through | 7 |
you may see the | 7 |
have the sun in | 7 |
upon one of the | 7 |
of the dyal plane | 7 |
equator passes through the | 7 |
through which the ellipsis | 7 |
degree of the meridian | 7 |
shall be the measure | 7 |
that are in the | 7 |
of the day given | 7 |
notes for div a | 7 |
the latitudes of the | 7 |
this other foot of | 7 |
upon the foot of | 7 |
star or degree of | 7 |
of the moneth given | 7 |
the variation of the | 7 |
the circles of the | 7 |
the bottom of the | 7 |
bring it to the | 7 |
and so of others | 7 |
all the rest of | 7 |
is it that a | 7 |
upon the point of | 7 |
it will be a | 7 |
minutes of the equinoctial | 7 |
your plane be a | 7 |
with the help of | 7 |
the contents of the | 7 |
back to the lower | 7 |
the quadrant on the | 7 |
the center of this | 7 |
so of the rest | 7 |
of the meridian line | 7 |
the sun being in | 7 |
may go and meet | 7 |
at the beginning of | 7 |
the nature of the | 7 |
of the sun at | 7 |
the vernal colure to | 7 |
is the nearest to | 7 |
of the earth the | 7 |
the figure of the | 7 |
so is the co | 7 |
bring that degree to | 7 |
the verticall of the | 7 |
when the sun shines | 7 |
of the poles of | 7 |
arch of the first | 7 |
towards the right hand | 7 |
of the globe to | 7 |
on the cusp of | 7 |
as a tangent of | 7 |
the points of hour | 7 |
double of the number | 7 |
to find in what | 7 |
point of the globe | 7 |
is the difference of | 7 |
invented and written by | 7 |
that the shadow of | 7 |
part of a circle | 7 |
to the meridian line | 7 |
and put it into | 7 |
to the left hand | 7 |
it to the meridian | 7 |
plains difference of longitude | 7 |
by the third probleme | 7 |
draw a line from | 7 |
and to find the | 7 |
at the foot of | 7 |
arch of the meridian | 7 |
of the day and | 7 |
and its opposite degree | 7 |
of the proper meridian | 7 |
to the edge of | 7 |
and bring it to | 7 |
b of the pin | 7 |
the plains difference of | 7 |
chuse a point in | 7 |
be made on the | 7 |
number of degrees between | 7 |
bring the first point | 7 |
is to the sine | 7 |
north part of the | 7 |
space go to the | 7 |
extend the other foot | 7 |
the north side of | 7 |
the sun or any | 7 |
to the point d | 7 |
of the nature of | 7 |
suns place to the | 7 |
it come to the | 7 |
verticall of the plane | 7 |
the tropick of cancer | 7 |
that degree to the | 7 |
a figure of heaven | 7 |
it is evident that | 7 |
and according to the | 7 |
to find out the | 7 |
sun or any star | 7 |
circle of the equinoctial | 7 |
seasons of the year | 7 |
therefore i say the | 7 |
of the suns altitude | 7 |
so shall the triangle | 7 |
degrees counted from the | 7 |
and one of the | 7 |
of your line of | 7 |
by the motion of | 7 |
therefore it containeth it | 7 |
which is the complement | 7 |
for the most part | 7 |
by substracting the lesser | 7 |
the other in the | 7 |
number of degrees from | 7 |
the suns place to | 7 |
will be the same | 7 |
there i make a | 7 |
cast a shadow upon | 7 |
with the rule by | 7 |
feet of the compass | 7 |
i screw the quadrant | 7 |
in the line qop | 7 |
laying a straight ruler | 7 |
parallel to the perpendicular | 7 |
declining from the south | 7 |
is the degree of | 7 |
from the north point | 7 |
and through the point | 7 |
hang in the aire | 7 |
the dyal in the | 7 |
that may go and | 7 |
the description and use | 7 |
and draw a line | 7 |
the angle of the | 7 |
through the center of | 7 |
when you have thus | 7 |
bd of the lower | 7 |
the first meridian comprehended | 7 |
are to be sold | 7 |
from the center through | 7 |
number of degrees the | 7 |
comming from the center | 7 |
in his book of | 6 |
to the suns place | 6 |
minutes of the equator | 6 |
the meridian through the | 6 |
a straight line parallel | 6 |
a number thought upon | 6 |
you are to draw | 6 |
the hour lines must | 6 |
by the rule of | 6 |
to the horizontal line | 6 |
as in the first | 6 |
the number of hours | 6 |
the azimuth of the | 6 |
may meet with the | 6 |
is the same in | 6 |
time of the year | 6 |
if you have done | 6 |
globe westwards till the | 6 |
which in the east | 6 |
the star or degree | 6 |
space from d to | 6 |
time of sun rising | 6 |
the horizon opposite to | 6 |
and the point of | 6 |
there shall be a | 6 |
the latitude of a | 6 |
to the succession of | 6 |
the true place of | 6 |
shew the true houre | 6 |
the center a through | 6 |
degrees below the horizon | 6 |
which is perpendicular to | 6 |
points of the hours | 6 |
be supposed to be | 6 |
the meridian and the | 6 |
the obliquity of the | 6 |
in regard of the | 6 |
to the knowledge of | 6 |
distance between the two | 6 |
the zenith of the | 6 |
distances of all the | 6 |
according to the succession | 6 |
to the center a | 6 |
turn the quadrant of | 6 |
the points d and | 6 |
at the signe of | 6 |
the situation of the | 6 |
untill it be full | 6 |
in the figure above | 6 |
be a line of | 6 |
pole is elevated above | 6 |
the west must be | 6 |
of longitude and latitude | 6 |
about the point d | 6 |
of any star given | 6 |
draw a meridian line | 6 |
marks in the line | 6 |
as if it were | 6 |
the side of it | 6 |
in the poles of | 6 |
the top of it | 6 |
for the length of | 6 |
the sides of it | 6 |
till it come to | 6 |
of degrees between the | 6 |
find a meridian line | 6 |
equator at the meridian | 6 |
the art of navigation | 6 |
global keyed and coded | 6 |
compasse upon the points | 6 |
be equall to the | 6 |
by the last probleme | 6 |
are said to be | 6 |
be ground very fine | 6 |
to the subindicall line | 6 |
of shadow c and | 6 |
for the a clock | 6 |
that distance in the | 6 |
the center of it | 6 |
rectifie the globe and | 6 |
the graduated edge of | 6 |
as you see the | 6 |
lay a straight ruler | 6 |
which the sun is | 6 |
of the suns rising | 6 |
in respect of your | 6 |
bright star in the | 6 |
to the globe of | 6 |
from the point m | 6 |
the equator on the | 6 |
double line of sines | 6 |
the length of a | 6 |
superficies and the axeltree | 6 |
turn the globe eastwards | 6 |
that there is no | 6 |
on the contrary side | 6 |
number of hour lines | 6 |
a point in the | 6 |
the center of a | 6 |
vernal colure to the | 6 |
and set one foot | 6 |
in the substilar line | 6 |
be found by the | 6 |
from the centre of | 6 |
so shall the degree | 6 |
of the horizon opposite | 6 |
east and west line | 6 |
find by the coelestial | 6 |
the hole of the | 6 |
at right angles in | 6 |
as far as the | 6 |
towards the east or | 6 |
by how much it | 6 |
upon the point d | 6 |
of leagues you have | 6 |
east and west diall | 6 |
points b and d | 6 |
of the shadow of | 6 |
parts of the world | 6 |
then place one foot | 6 |
of the ecliptick that | 6 |
of the third magnitude | 6 |
side of the meridian | 6 |
the ends of the | 6 |
upon the edge of | 6 |
to take altitudes by | 6 |
from the middle of | 6 |
screwed to the zenith | 6 |
ascension of the sun | 6 |
is to the globe | 6 |
upon the center a | 6 |
that which is in | 6 |
north side of the | 6 |
almicantar of the sun | 6 |
a bright star in | 6 |
there make a prick | 6 |
from east to west | 6 |
the houre lines of | 6 |
foot of the style | 6 |
be a point through | 6 |
of the place of | 6 |
after the same manner | 6 |
the help of a | 6 |
line shall be drawn | 6 |
compass to the point | 6 |
of the compass to | 6 |
so shall the index | 6 |
xii a clock line | 6 |
it comes to the | 6 |
of the quadrant to | 6 |
of your compasses at | 6 |
this is to be | 6 |
magnitude is to the | 6 |
let there be a | 6 |
the space from d | 6 |
and so much the | 6 |
of the other hours | 6 |
and in the same | 6 |
for the placing of | 6 |
diameter of the circle | 6 |
and on the other | 6 |
parallel of the suns | 6 |
spi global keyed and | 6 |
made for the latitude | 6 |
b of the axeltree | 6 |
and at the same | 6 |
and if there be | 6 |
of altitude in the | 6 |
every pound of powder | 6 |
straight line parallel to | 6 |
horizon of the world | 6 |
the number of years | 6 |
cut the quadrant of | 6 |
the globe westwards till | 6 |
be numbred from the | 6 |
length of the zodiac | 6 |
take altitudes by the | 6 |
other foot to the | 6 |
sharp at both ends | 6 |
degree of the equinoctial | 6 |
of the index above | 6 |
bring the vernal colure | 6 |
you come to the | 6 |
i rectifie the globe | 6 |
number of leagues you | 6 |
with your compasses the | 6 |
the declination of a | 6 |
of the side b | 6 |
the superficies and the | 6 |
to the zenith line | 6 |
time of the day | 6 |
the rhumb you have | 6 |
to the horizontall line | 6 |
upon the top of | 6 |
the dayes and nights | 6 |
south points of the | 6 |
n s in the | 6 |
a double line of | 6 |
passeth to the point | 6 |
that may meet in | 6 |
altitude to the zenith | 6 |
the sides of the | 6 |
altitude above the horizon | 6 |
and laying a straight | 6 |
and turning this foot | 6 |
finde the secant of | 6 |
to find the height | 6 |
a point through which | 6 |
stars that are in | 6 |
of the fixed stars | 6 |
cursor of the axis | 6 |
intersection of the meridian | 6 |
side of the clinatory | 6 |
index above the plain | 6 |
difference of right ascension | 6 |
the angle d a | 6 |
degree of the suns | 6 |
be the sine of | 6 |
i count from the | 6 |
into the superficies of | 6 |
to finde the declination | 6 |
must be numbred from | 6 |
you may learn to | 6 |
on the hour circle | 6 |
which passeth to the | 6 |
altitude of any star | 6 |
pound of powder dust | 6 |
and declination of the | 6 |
you were directed to | 6 |
and the angle at | 6 |
the name of the | 6 |
the shadow of a | 6 |
again to the figure | 6 |
find the difference of | 6 |
parallels of the sun | 6 |
of the houre lines | 6 |
circles parallel to the | 6 |
and you will find | 6 |
that which passeth to | 6 |
of the last book | 6 |
the light of the | 6 |
your compasse upon the | 6 |
and to that radius | 6 |
do the like for | 6 |
which are in the | 6 |
the two points of | 6 |
the degrees and minutes | 6 |
that end of the | 6 |
it is called the | 6 |
so that the space | 6 |
and lines drawn from | 6 |
the foot of a | 6 |
a clock hour lines | 6 |
take the halfe of | 6 |
shall the index of | 6 |
may be even with | 6 |
to make use of | 6 |
each of them to | 6 |
by the terrestrial globe | 6 |
that the sun is | 6 |
the pole and zenith | 6 |
of the horizon till | 6 |
upper end of the | 6 |
of one side or | 6 |
upwards on the quadrant | 6 |
the zodiac is to | 6 |
is contained between the | 6 |
from the a clock | 6 |
is to be described | 6 |
setting one foot in | 6 |
from the meridian or | 6 |
is an arch of | 6 |
be perpendicular to the | 6 |
is seen in the | 6 |
in the west must | 6 |
the earth the sun | 6 |
as you were directed | 6 |
that which in the | 6 |
of all the other | 6 |
to the brasen meridian | 6 |
end of the pipe | 6 |
semidiameter of the equator | 6 |
the parallels of declination | 6 |
true place of the | 6 |
the shortest distance between | 6 |
is to be set | 6 |
must turn the triangle | 6 |
the shadow of that | 6 |
space from the point | 6 |
pole above the plane | 6 |
erect a figure of | 6 |
right angled spherical triangle | 6 |
shall be a point | 6 |
and bring that degree | 6 |
as for example in | 6 |
stand parallel to the | 6 |
superficies of the horizon | 6 |
zenith and the first | 6 |
the compass to the | 6 |
on both sides of | 6 |
side or other of | 6 |
shall the degree of | 6 |
the hour circle points | 6 |
the day and night | 6 |
the form of a | 6 |
an east or west | 6 |
and when the sun | 6 |
shall the triangle be | 6 |
of the table of | 6 |
suns place in the | 6 |
straight line from the | 6 |
the plain whereon the | 6 |
of the first magnitude | 6 |
for if it be | 6 |
if it be not | 6 |
when the sun comes | 6 |
the coelestial globe the | 6 |
towards the left hand | 6 |
it is supposed that | 6 |
cut the degree of | 6 |
i turn about the | 6 |
the whole art of | 6 |
upon the celestial globe | 6 |
two points of shadow | 6 |
as in this example | 6 |
sine of the plains | 6 |
the east dyal is | 6 |
degree of the quadrant | 6 |
put it into the | 6 |
in the east dyal | 6 |
how to draw a | 6 |
as you shall see | 6 |
globe to the latitude | 6 |
star on the globe | 6 |
the index above the | 6 |
fore noon hour lines | 5 |
turn the globe westwards | 5 |
between the two pricks | 5 |
equally distant from the | 5 |
of the axeltree of | 5 |
of the equinoctial comprehended | 5 |
find the day of | 5 |
as the lower figure | 5 |
shew the length of | 5 |
draw from the point | 5 |
of the index is | 5 |
semidiameter of the horizon | 5 |
practical use of the | 5 |
the index point at | 5 |
stand perpendicular to the | 5 |
how many degrees of | 5 |
it were in the | 5 |
a fixed star of | 5 |
other side the meridian | 5 |
it is a thing | 5 |
the point of inflammation | 5 |
degrees shall be the | 5 |
the equinoctial line on | 5 |
of the properties of | 5 |
find the longitude and | 5 |
with the horizon on | 5 |
after noon hour lines | 5 |
and by consequence the | 5 |
trace with the other | 5 |
any part of the | 5 |
any point of the | 5 |
according to the proportion | 5 |
is the axeltree of | 5 |
in the former figure | 5 |
upon the point c | 5 |
of the plane and | 5 |
center of the world | 5 |
if it be upon | 5 |
and at the end | 5 |
the meridian and horizon | 5 |
the upper side of | 5 |
the fore noon hour | 5 |
the ellipsis it selfe | 5 |
middle of the plane | 5 |
the other end of | 5 |
will be in the | 5 |
when you have found | 5 |
be noted that the | 5 |
by which you may | 5 |
the middle of a | 5 |
other end of the | 5 |
pin b to the | 5 |
the equator from the | 5 |
these lines shall be | 5 |
what number of degrees | 5 |
of your own horizon | 5 |
in the horizontal intersection | 5 |
through that point draw | 5 |
of powder dust adde | 5 |
or that which is | 5 |
to the line a | 5 |
line that you have | 5 |
the limitation of the | 5 |
heigth of the sun | 5 |
you have found out | 5 |
b to the point | 5 |
go and meet the | 5 |
go and mark with | 5 |
altitude to the east | 5 |
the equinoctial comprehended between | 5 |
the ecliptick shall be | 5 |
in the centre of | 5 |
finde the declination of | 5 |
of the line of | 5 |
for this other foot | 5 |
the after noon hour | 5 |
there make a mark | 5 |
according to the proper | 5 |
the opposite degree of | 5 |
other side of the | 5 |
point of a needle | 5 |
of many sorts of | 5 |
of the third figure | 5 |
sides of the clinatory | 5 |
either north or south | 5 |
north side the equator | 5 |
subindicall line r s | 5 |
meridian with the horizon | 5 |
by the quadrant of | 5 |
of hours and minutes | 5 |
to one of them | 5 |
point of the equinoctiall | 5 |
the ellipsis is to | 5 |
on one side the | 5 |
equinoctial line on the | 5 |
and the shadow of | 5 |
according to the former | 5 |
other foot draw from | 5 |
parallel to the subindicall | 5 |
center of the earth | 5 |
from the horizon upwards | 5 |
unformed stars belonging unto | 5 |
as by the second | 5 |
from the south westwards | 5 |
that side the pole | 5 |
for that number of | 5 |
an erect direct west | 5 |
those that are skilled | 5 |
of fire for the | 5 |
shall you have the | 5 |
i would know what | 5 |
that are skilled in | 5 |
in the plain of | 5 |
shall be the meridian | 5 |
against the line of | 5 |
in the other ballance | 5 |
upon the points b | 5 |
a circle divided into | 5 |
the description of the | 5 |
to be sold at | 5 |
tangent of your latitude | 5 |
the sun from the | 5 |
you may by the | 5 |
of the place be | 5 |
an erect direct east | 5 |
is no other then | 5 |
is the double of | 5 |
edge of the horizon | 5 |
the complement of your | 5 |
about the point g | 5 |
close to the stay | 5 |
one of the poles | 5 |
the hour lines from | 5 |
one point in the | 5 |
of the ecliptick which | 5 |
if you will have | 5 |
is an hour longer | 5 |
circle of the suns | 5 |
mark with the other | 5 |
the meridian between the | 5 |
shall the arch of | 5 |
if you turn the | 5 |
to hang in the | 5 |
the other parts of | 5 |
shall shew the length | 5 |
space bi of the | 5 |
and set one of | 5 |
degrees on the meridian | 5 |
quarter of the ecliptick | 5 |
such a position that | 5 |
of degrees on the | 5 |
to the quadrant of | 5 |
the horizon from the | 5 |
perpendicular to the line | 5 |
point in the middle | 5 |
are said to have | 5 |
of the circle a | 5 |
unto the diameter of | 5 |
ascension and declination of | 5 |
all parallel to the | 5 |
workmen of many sorts | 5 |
of the third book | 5 |
be answerable to the | 5 |
in the quadrant on | 5 |
open your compasses to | 5 |
as much as the | 5 |
side of the ruler | 5 |
and hour index rectified | 5 |
foot draw from the | 5 |
to the radius r | 5 |
together in one and | 5 |
above the meridian line | 5 |
north pole is elevated | 5 |
i count in the | 5 |
points of the compass | 5 |
the best way to | 5 |
go back to the | 5 |
which are called the | 5 |
and minute of the | 5 |
cut by the horizon | 5 |
circle that may meet | 5 |
radius or decimall scale | 5 |
tangent of the declination | 5 |
draw an obscure line | 5 |
be a meridian line | 5 |
pole above the plain | 5 |
of degrees of altitude | 5 |
points of the horizon | 5 |
points in the superficies | 5 |
point on the globe | 5 |
to find the longitude | 5 |
in the zenith of | 5 |
the center a of | 5 |
rhumb you have sailed | 5 |
complement of your latitude | 5 |
are parallel to the | 5 |
i elevate the north | 5 |
ellipsis is to be | 5 |
then go to the | 5 |
arch of the horizon | 5 |
or an oyled paper | 5 |
to the angle of | 5 |
the horizon is the | 5 |
it is in your | 5 |
hour lines of the | 5 |
degrees comprehended between the | 5 |
or parallel of the | 5 |
poetical stories of the | 5 |
of the second triangle | 5 |
of the pole in | 5 |
find the measure of | 5 |
other foot go and | 5 |
to the same point | 5 |
by the points b | 5 |
you intend to make | 5 |
which is upon the | 5 |
of the planes declination | 5 |
to prick down the | 5 |
be even with the | 5 |
from the latitude of | 5 |
motion of the index | 5 |
the feet to the | 5 |
may be seen in | 5 |
same number of hour | 5 |
the horizon till the | 5 |
horizon on that side | 5 |
arch of the sun | 5 |
from the top of | 5 |
at the same instant | 5 |
and south points of | 5 |
to finde the centre | 5 |
and through that point | 5 |
in the same longitude | 5 |
the horizon on that | 5 |
is equal to the | 5 |
to shew the houre | 5 |
you may do it | 5 |
therefore it containeth the | 5 |
ounces of cole dust | 5 |
which is the difference | 5 |
after the name of | 5 |
the ancient and modern | 5 |
of the place and | 5 |
it is certaine that | 5 |
was placed in the | 5 |
table of angles at | 5 |
lesser from the greater | 5 |
of a planetary hour | 5 |
of angles at the | 5 |
the time of sun | 5 |
the head of the | 5 |
a pound of water | 5 |
latitude of the index | 5 |
by means of the | 5 |
turning the globe westwards | 5 |
is said to be | 5 |
the other of the | 5 |
in the first triangle | 5 |
it is said to | 5 |
of the motion of | 5 |
your compasses upon the | 5 |
a solid body consisting | 5 |
but if it have | 5 |
from the first point | 5 |
and divided one from | 5 |
length of the shadow | 5 |
an arch of a | 5 |
to the superficies of | 5 |
draw a right line | 5 |
find the place of | 5 |
the extremity of the | 5 |
and the stilar line | 5 |
that comes to the | 5 |
make the sine of | 5 |
by the two points | 5 |
and these lines shall | 5 |
this is done by | 5 |
from the point e | 5 |
are distant from the | 5 |
have been exact in | 5 |
from the point i | 5 |
the second and third | 5 |
with the same space | 5 |
point up into the | 5 |
the definition of the | 5 |
to the point g | 5 |
of the wooden horizon | 5 |
is proper to the | 5 |
triangle be made on | 5 |
the quadrant to the | 5 |
complement of the latitude | 5 |
a right angled spherical | 5 |
two points b and | 5 |
day of the week | 5 |
is a solid body | 5 |
italian or babylonian way | 5 |
represented by the line | 5 |
other of the point | 5 |
so is the triangle | 5 |
erect direct north dyal | 5 |
in the mean time | 5 |
furthest from the point | 5 |
the first of the | 5 |
in the hour circle | 5 |
have the same distance | 5 |
those lines shall be | 5 |
the sun upon the | 5 |
number of degrees is | 5 |
in the first of | 5 |
of the three points | 5 |
that it is the | 5 |
end of the meridian | 5 |
center of the circle | 5 |
after the italian or | 5 |
may be found by | 5 |
and with the same | 5 |
it is also called | 5 |
star of the second | 5 |
north and south points | 5 |
and the remains is | 5 |
upon the middle rule | 5 |
and the points of | 5 |
the meridian with it | 5 |
latitude you departed from | 5 |
for when the sun | 5 |
the stile must stand | 5 |
the pole to the | 5 |
the compasse upon the | 5 |
by reason of its | 5 |
is mention made of | 5 |
north side the equinoctial | 5 |
in the equinoctial line | 5 |
adde the number of | 5 |
as shall be shewed | 5 |
leagues you have sailed | 5 |
and placing one foot | 5 |
to the line ab | 5 |
the horizontall plain of | 5 |
from the intersection of | 5 |
number of degrees on | 5 |
meridian under the horizon | 5 |
in or parallel to | 5 |
the triangle be made | 5 |
and if it be | 5 |
the latitude of any | 5 |
be the tangent of | 5 |
from the point c | 5 |
hour circle points to | 5 |
and if you have | 5 |
quadrant of altitude upwards | 5 |
to find the difference | 5 |
which is to be | 5 |
by the name of | 5 |
it from m to | 5 |
the distance from the | 5 |
fixed star of the | 5 |
how to find the | 5 |
to the parts of | 5 |
in the number of | 5 |
the houres after the | 5 |
is the latitude of | 5 |
to make an horizontall | 5 |
in the last probleme | 5 |
to a fourth quantity | 5 |
that they may be | 5 |
hour lines of an | 5 |
finde which of them | 5 |
the point of a | 5 |
every degree of the | 5 |
of the most eminent | 5 |
all one with the | 5 |
they are to be | 5 |
stars belonging unto this | 5 |
so shall you have | 5 |
the course of the | 5 |
the same may be | 5 |
as in the second | 5 |
of the sun from | 5 |
of the horizon i | 5 |
take the altitude of | 5 |
the index from the | 5 |
with the quadrant of | 5 |
from the first meridian | 5 |
through the meridian in | 5 |
the plane of the | 5 |
houre from the meridian | 5 |
of a fixed star | 5 |
of that which is | 5 |
and by means of | 5 |
the degree in the | 5 |
in the point b | 5 |
which is called the | 5 |
the practical use of | 5 |
to the line bd | 5 |
the lesser from the | 5 |
rockets of or ounces | 5 |
as it must be | 5 |
cut by the meridian | 5 |
of the principal places | 5 |
erect direct east dyal | 5 |
the latitude you departed | 5 |
with the compasse the | 5 |
meridian of the index | 5 |
over the substilar line | 5 |
be the point of | 5 |
finde a number thought | 5 |
lines parallel to the | 5 |
the greatnesse of the | 5 |
course of the sun | 5 |
be found in the | 5 |
in the triangle of | 5 |
a hole in the | 5 |
are contained between the | 5 |
the equinoctial between the | 5 |
of the center of | 5 |
foot of a mountaine | 5 |
to his own respectively | 5 |
every houre of the | 5 |
of the increase of | 5 |
make an horizontall diall | 5 |
the drawing of the | 5 |
the stars in heaven | 5 |
the heighth of the | 5 |
in an oblique sphear | 5 |
westwards till the index | 5 |
will give you leave | 5 |
so as it may | 5 |
as in the former | 5 |
from the line of | 5 |
of degrees is the | 5 |
complement of the plains | 5 |
and bring the lower | 5 |
opposite degree of the | 5 |
plain and easie directions | 5 |
the place from the | 5 |
of the place from | 5 |
this kinde of diall | 5 |
off that distance in | 5 |
the signe of the | 5 |
straight lines drawn from | 5 |
ascensions and declinations of | 5 |
solid body consisting of | 5 |
degree of the planes | 5 |
you must have a | 5 |
the scituation of the | 5 |
the horizon it is | 5 |
line drawn from the | 5 |
be seen in a | 5 |
to erect a figure | 5 |
the signes in the | 5 |
of the horizon of | 5 |
the space betwixt the | 5 |
upon the points d | 5 |
point of in the | 5 |
i of the axeltree | 5 |
the rule by the | 5 |
the lower figure shews | 5 |
must be in the | 5 |
divided one from the | 5 |
of the meridian and | 5 |
the italian or babylonian | 5 |
and easie directions for | 5 |
twilight in the morning | 5 |
you shall finde the | 5 |
how much it is | 5 |
degrees that the sun | 5 |
shadow of the style | 5 |
the north point in | 5 |
make right angles with | 5 |
meet in the point | 5 |
i make another prick | 5 |
of the compasses in | 5 |
the day an hour | 5 |
poles of the globe | 5 |
of the moneth in | 5 |
one side of the | 5 |
to the workmen of | 5 |
to be in the | 5 |
the triangle of prob | 5 |
so shall the arch | 5 |
day is an hour | 5 |
is to be drawn | 5 |
such sort that the | 5 |
which is the nearest | 5 |
the use of it | 5 |
places of the fixt | 5 |
be done by the | 5 |
the latitude you are | 5 |
in degrees and minutes | 5 |
the xii a clock | 5 |
foot in the center | 5 |
equinoctial comprehended between the | 5 |
to be described upon | 5 |
in a direct line | 5 |
in the following figure | 5 |
of it to the | 5 |
as was shewed in | 5 |
say that it is | 5 |
length of the longest | 5 |
then turning the globe | 5 |
side the pole is | 5 |
difference of right ascensions | 5 |
with the diameter of | 5 |
the end of it | 5 |
set it from m | 5 |
the vi a clock | 5 |
you shall find the | 5 |
all the afternoon hour | 5 |
complement of the angle | 5 |
the sight of the | 5 |
if the eye be | 5 |
many sorts of arts | 5 |
and mark with the | 5 |
the other foot go | 5 |
the rising of the | 5 |
from the beginning of | 5 |
the axeltree rod of | 5 |
the sun for that | 5 |
between the equator and | 5 |
of the point d | 5 |
you may see that | 5 |
radius or tangent of | 5 |
the work will be | 5 |
the true places of | 5 |
upon the proper horizon | 5 |
body of the moon | 5 |
observe the altitude of | 5 |
is to be understood | 5 |
horizon opposite to the | 5 |
any one of the | 5 |
the subindicall line r | 5 |
altitude of the pole | 5 |
is made by the | 5 |
circle parallel to the | 5 |
center of the plane | 5 |
place of the world | 5 |
of a vessell which | 5 |
from the axeltree rod | 5 |
to the distance of | 5 |
of them to his | 5 |
take with the compasse | 5 |
to the centre of | 5 |
equal to the three | 5 |
pots of fire for | 5 |
and set it upon | 5 |
the pin b to | 5 |
decline from the south | 5 |
lie parallel to the | 5 |
of the sun by | 5 |
and keeping the globe | 5 |
them to his own | 5 |
to the meridian and | 5 |
of the plane de | 5 |
of the other of | 5 |
slope edges of the | 5 |
of altitude and the | 5 |
the principal places in | 5 |
at the sign of | 5 |
pole of the ecliptick | 5 |
the workmen of many | 5 |
the first meridian be | 5 |
of the declination of | 5 |
there is mention made | 5 |
the th part of | 5 |
at the other end | 5 |
reclination of the plane | 5 |
find the length of | 5 |
every one to his | 5 |
to be found in | 5 |
through the middle of | 5 |
equal with the space | 5 |
from one of the | 5 |
from e to f | 5 |
place on the globe | 5 |
are skilled in geometry | 5 |
the dayes of the | 5 |
is the height of | 5 |
it is said that | 5 |
it that a man | 4 |
segment of a circle | 4 |
will shew the houre | 4 |
of the primary ellipsis | 4 |
zenith line a b | 4 |
of the pole be | 4 |
many of them as | 4 |
equall to the tangent | 4 |
discourse of the antiquity | 4 |
styles height above the | 4 |
minute in the ecliptick | 4 |
of degrees counted from | 4 |
distance in the equinoctial | 4 |
any place of the | 4 |
for rockets of or | 4 |
motion of the shaddow | 4 |
places given in the | 4 |
of the points b | 4 |
of the clock it | 4 |
sun being in the | 4 |
point the sun rises | 4 |
you see that the | 4 |
that the plumbet may | 4 |
hour lines from the | 4 |
the generall horologicall ring | 4 |
no other then a | 4 |
is best to be | 4 |
of the upright index | 4 |
of the houre distance | 4 |
the ende of the | 4 |
be the center of | 4 |
sine of the angle | 4 |
to the meridian altitude | 4 |
of altitude shall be | 4 |
or a clock line | 4 |
on the meridian the | 4 |
it must be noted | 4 |
in what number of | 4 |
of the night and | 4 |
one of the three | 4 |
above the horizon at | 4 |
shall be the several | 4 |
that may meet with | 4 |
of the aequinoctiall distance | 4 |
of the body of | 4 |
the knowledge of the | 4 |
is on the north | 4 |
or any star is | 4 |
according to the time | 4 |
you were taught in | 4 |
the distance which is | 4 |
which you are to | 4 |
from the middle rule | 4 |
latitude of the plain | 4 |
elevate the pole to | 4 |
for the help of | 4 |
equinoctial and the quadrant | 4 |
how the zodiac is | 4 |
from the north or | 4 |
each side of the | 4 |
the arches of the | 4 |
you have been very | 4 |
the variation is eastwards | 4 |
the ecliptick is elevated | 4 |
forms are pictured on | 4 |