trigram

This is a table of type trigram and their frequencies. Use it to search & browse the list to learn more about your study carrel.

trigram	frequency
of the sun	321
quadrant of altitude	237
the quadrant of	213
the number of	200
one of the	189
according to the	180
of the horizon	170
parallel to the	166
number of degrees	157
to find the	144
point of the	142
to the meridian	137
the point of	135
of the world	132
degree of the	130
which is the	125
of the day	120
to the point	120
the length of	113
place of the	113
the center of	113
the meridian line	112
degrees of the	112
the line of	111
of the index	110
of the earth	110
of the dyal	108
meridian of the	105
shall be the	104
of the pole	104
side of the	104
the place of	103
of the equator	103
the latitude of	103
the distance of	103
from the center	103
from the point	103
of the place	101
is to be	100
elevation of the	100
of the ecliptick	99
the meridian of	96
of the quadrant	95
the tangent of	94
the degree of	94
end of the	94
the sine of	92
the elevation of	91
on the globe	89
in the same	89
above the horizon	88
superficies of the	86
the hour of	86
m p m	85
from the meridian	85
of the plane	85
p m p	85
if it be	84
and the other	84
and the same	84
the superficies of	83
of the meridian	83
of the equinoctial	82
hour of the	81
part of the	81
the complement of	81
sine of the	80
the shadow of	80
length of the	80
out of the	79
is in the	79
center of the	78
a straight line	77
the sun is	76
the end of	75
as in the	75
of the hour	75
foot of the	73
the difference of	73
the other foot	72
to finde the	72
s s s	72
the proper meridian	72
the points of	71
of the plain	71
perpendicular to the	70
one and the	70
of the globe	70
the point b	69
of the suns	69
of the same	69
so shall the	69
the first meridian	68
the middle of	68
to the horizon	67
complement of the	67
to be the	67
it must be	66
in the middle	66
the circle of	65
the hour lines	65
it may be	65
the lower figure	64
edge of the	63
distance of the	63
day of the	63
in respect of	63
at right angles	61
that which is	61
points of the	61
the other side	60
in the aire	60
the declination of	60
of the poles	59
point in the	59
the day of	58
of the other	58
declination of the	58
of the first	58
comprehended between the	57
altitude of the	57
the axeltree rod	56
line of the	56
upon the plain	56
motion of the	55
arch of the	55
the height of	55
to the other	55
one foot of	55
equall to the	55
shadow of the	55
the top of	55
as you see	54
of the second	54
the motion of	54
of the equinoctiall	54
it will be	54
the suns place	53
how to make	53
north or south	53
of the hours	53
the measure of	53
index of the	53
the center a	53
in the first	53
when the sun	52
axis of the	52
early english books	52
by the globe	52
the a clock	52
of the stars	52
circle of the	52
come to the	51
to make a	51
the index of	51
on the other	51
and in the	51
in the morning	51
the straight line	51
in the point	50
draw a line	50
height of the	50
the axis of	50
circle of position	50
difference of longitude	50
poles of the	50
of the moneth	49
with the other	49
north and south	49
through the meridian	49
so that the	49
by help of	48
tangent of the	48
the point d	48
the poles of	48
degrees and minutes	48
parts of the	48
number thought upon	48
the degrees of	48
in the horizon	47
of the axeltree	47
of the two	47
the altitude of	47
of the compass	47
the suns declination	46
measure of the	46
that it may	46
the poles elevation	46
the arch of	46
of all the	46
as the radius	45
the time of	45
are to be	45
you may see	45
of the compasse	45
in the line	45
the foot of	45
middle of the	45
of the circle	45
in the zenith	45
so is the	45
each of them	45
the hour circle	45
the brasen meridian	44
draw the line	44
the north pole	44
the edge of	44
to the tangent	44
on the quadrant	44
a clock line	44
here at london	44
east or west	44
it is a	43
equal to the	43
and from the	43
a clock hour	43
ought to be	43
east and west	43
the number thought	43
the figure above	42
the parts of	42
the use of	42
english books online	42
use of the	42
of the style	42
the right hand	42
of altitude to	42
turn the globe	42
of degrees of	41
is to the	41
to the index	41
the horizon of	41
distant from the	41
and the index	40
which may be	40
line of contingence	40
contained between the	40
it to the	39
the equinoctiall circle	39
longitude and latitude	39
pole of the	39
that it is	39
to the radius	39
be in the	39
the east side	39
distance from the	39
the point o	39
the same with	38
or such like	38
the hours of	38
the substilar line	38
side the horizon	38
is the same	38
to make the	38
of a circle	38
and it is	37
the higher figure	37
the globe till	37
is called the	37
plain of the	37
latitude of the	37
in the figure	37
to the plain	37
above the plain	37
on the meridian	37
and by the	37
from the south	36
in the former	36
at the end	36
in the center	36
of the night	36
as it were	36
at the same	36
the beginning of	36
the making of	36
the side of	36
of the pin	35
of the angle	35
is the number	35
the diameter of	35
you are to	35
the centre of	35
between the two	35
when it is	34
the same time	34
top of the	34
to the east	34
the plain of	34
a meridian line	34
the terrestrial globe	34
in this example	33
of the points	33
to the same	33
therefore i say	33
in the ecliptick	33
sun is in	33
in the meridian	33
the figure below	33
points of shadow	33
by reason of	33
the rest of	33
in the other	33
so many degrees	33
of the latitude	33
on both sides	33
houre of the	32
upon the point	32
when you have	32
in the circle	32
and so the	32
the left hand	32
of the glasse	32
about the globe	32
to make an	32
there will be	32
the pole of	32
on the north	32
but if the	32
line on the	31
the west side	31
which is in	31
but if it	31
of one of	31
till the index	31
and at the	31
altitude to the	31
a line of	31
pass through the	31
the east point	31
from the zenith	31
to the line	31
of the heavens	30
in the lower	30
may be done	30
cut by the	30
number of the	30
one of them	30
and to the	30
in the second	30
turn about the	30
and of the	30
minutes of the	30
the help of	30
that you may	30
of the year	30
of the figure	30
to the figure	30
of your compasses	30
it to be	30
the longitude of	30
text creation partnership	29
the sun in	29
the longest day	29
the north side	29
horizon of the	29
the half circle	29
in one and	29
degrees from the	29
may be made	29
and if the	29
in the superficies	29
to the end	29
the middle rule	29
it is the	29
be the same	29
and if you	29
the axeltree of	29
respect of the	29
in the east	29
the line a	29
as much as	29
diameter of the	29
of the third	28
the globe to	28
of the elevation	28
the point c	28
the houre of	28
in the equinoctial	28
and that the	28
the same number	28
a piece of	28
to the sine	28
be made to	28
or any other	28
you have the	28
the same manner	28
and bring the	28
a right line	28
of the line	28
the intersection of	27
in the air	27
an erect direct	27
because it is	27
and with this	27
the feet of	27
on the ceeling	27
time of the	27
in this manner	27
the semidiameter of	27
based on the	27
drawn from the	27
the lines of	27
to the zenith	27
of the higher	27
lines of the	27
the distances of	27
rest of the	27
of degrees and	27
to know the	27
at the pole	27
the meridian altitude	27
the equinoctial line	27
same number of	27
point of shadow	27
the manner of	27
it is to	26
line parallel to	26
the pole is	26
centre of the	26
semidiameter of the	26
proper meridian of	26
the north point	26
one of these	26
the distance between	26
with this space	26
placed in the	26
the fixt stars	26
rectifie the globe	26
as by the	26
from the first	26
the sun or	26
the zenith line	26
that is to	26
axeltree of the	26
reason of the	26
foot of your	26
globe till the	26
shall be a	25
the lower end	25
pole is elevated	25
you may find	25
if you have	25
and the point	25
of the three	25
the globe and	25
from the equinoctial	25
the south pole	25
make a prick	25
which you may	25
of the dyall	25
intersection of the	25
the quantity of	25
by how much	25
upon which the	25
of the moon	25
of the lower	25
there is no	25
of the zodiac	25
may be found	25
from the north	25
as it is	25
of the axis	25
it is in	25
and turn the	25
early works to	25
the solution of	25
line of sines	25
every one of	25
the houre points	25
of the feet	25
and with the	25
so much the	25
set one foot	25
in the water	24
and set it	24
that if the	24
for the latitude	24
of your place	24
to the equator	24
one to the	24
all sorts of	24
line of chords	24
on the top	24
the houre lines	24
the angle at	24
line from the	24
if you will	24
in this case	24
all the rest	24
so much as	24
the art of	24
as by prob	24
in like manner	24
and a halfe	24
clock hour line	24
in the quadrant	23
place in the	23
find the hour	23
those which are	23
i would know	23
to the eye	23
it is called	23
is all one	23
of the semi	23
and so of	23
in the north	23
is equall to	23
comes to the	23
of the point	23
meridian and the	23
to the center	23
as you may	23
to shew the	23
help of a	23
as may be	23
degrees above the	23
you shall see	23
it in the	23
to make it	23
that the sun	23
feet of the	23
to the degree	23
with the meridian	22
set one of	22
back to the	22
under the horizon	22
you must have	22
and let the	22
draw a straight	22
the line ab	22
screw the quadrant	22
the point i	22
lower end of	22
by joseph moxon	22
the cusp of	22
of the work	22
elevate the pole	22
the same point	22
of the houres	22
to be made	22
right angles with	22
to the west	22
of the ellipsis	22
counted from the	22
that is the	22
line a b	22
as long as	22
of the sunne	22
the meridian and	22
line shall be	22
the north or	22
if it were	22
tangent of gr	22
that there is	22
the center o	22
the same distance	22
of the parts	22
all the other	22
which shall be	21
a straight ruler	21
as you can	21
of the houre	21
of the plains	21
between the first	21
finde out the	21
so that it	21
help of the	21
proper to the	21
will be the	21
from a to	21
with the horizon	21
the secant of	21
from the east	21
the horizon and	21
of your latitude	21
of the water	21
upon the same	21
to be done	21
of the compasses	21
east side the	21
i turn the	21
the right ascension	21
to draw a	21
the point g	21
distance between the	21
to be a	21
in such sort	21
of the whole	21
the east or	21
by the same	20
they may be	20
with the same	20
as for example	20
distances of the	20
the side a	20
into two equal	20
same with the	20
at the meridian	20
that you have	20
two equal parts	20
cusp of the	20
you see in	20
the sun rises	20
and let it	20
the angle c	20
points in the	20
rising and setting	20
on the plane	20
the head of	20
on the right	20
the contingent line	20
the name of	20
the second book	20
star of the	20
day and night	20
globe and quadrant	20
are said to	20
from the equinoctiall	20
after the french	20
the space from	20
because of the	20
if the sun	20
a table of	20
other of the	20
will not be	20
the heigth of	20
heigth of the	20
in the semi	20
the gnomonical semi	20
the two points	20
and the meridian	20
much the more	20
degrees on the	20
of the former	20
many degrees as	20
place to the	20
in the equator	20
position of the	20
draw with the	20
each of these	20
the reason of	20
any of the	20
for then the	20
let there be	20
it would be	20
the horizontall plain	20
of the number	20
angles with the	20
of the said	20
keying and markup	20
the angle b	20
let it be	19
that number of	19
table of the	19
for it must	19
by the side	19
points b and	19
it will not	19
for that day	19
of the needle	19
the table of	19
in the west	19
of the horizontall	19
towards the east	19
angle at the	19
in which the	19
out of a	19
the sun and	19
the equator pass	19
if you would	19
which will be	19
and minutes of	19
that it was	19
and the first	19
go to the	19
on the east	19
you will have	19
radius of the	19
the horizontal line	19
the body of	19
lines from the	19
into equal parts	19
extend the other	19
the north and	19
must be placed	19
in a straight	19
with your compasses	19
which is all	19
from the pole	19
in the south	19
at the first	19
places of the	19
and so you	19
and it will	19
according as the	19
from the other	19
north side the	19
there must be	19
through which the	19
all manner of	19
in the heavens	19
the space of	19
and the number	19
see in the	19
the radius of	19
to the axis	19
on the line	19
the other end	19
about the point	19
the tropick of	18
is divided into	18
as the figure	18
the index points	18
shall represent the	18
and the angle	18
the first of	18
towards the north	18
between the pole	18
and the degree	18
sorts of people	18
west side the	18
beginning of the	18
those that are	18
the pole and	18
measure the distance	18
poles elevation above	18
the position of	18
of that place	18
the same line	18
and then the	18
and quadrant of	18
of any star	18
the sun hath	18
represented by the	18
part of a	18
which in the	18
as well as	18
an arch of	18
by this means	18
how much the	18
represented either as	18
may be seen	18
marked as illegible	18
to finde out	18
be the hour	18
by the former	18
meridian line on	18
either as utf	18
in the place	18
the halfe of	18
the houres of	18
of any place	18
characters represented either	18
that may meet	18
again to the	18
and draw the	18
at the top	18
equator pass through	18
elevation above the	18
to the latitude	18
made in the	17
place one foot	17
if your plane	17
the first point	17
of it is	17
to the place	17
the fiduciall edge	17
to the points	17
placed in heaven	17
of the side	17
and so much	17
elevated above the	17
latitude of london	17
to one of	17
is the tangent	17
in the table	17
i elevate the	17
the vernal colure	17
are in the	17
as shall be	17
there is a	17
so have you	17
the sun to	17
or the like	17
pole and the	17
be divided into	17
be the number	17
it is not	17
secant of the	17
the other of	17
to be set	17
you have found	17
houres of the	17
have the same	17
the horizon in	17
beams of the	17
and for the	17
sun and moon	17
make in the	17
you may know	17
by which the	17
and when the	17
b of the	17
and upon the	17
star in the	17
as you were	17
through the center	17
parallel of the	17
the earth is	17
is the distance	17
must be the	17
the sides of	17
setting of the	17
is to say	17
the sun being	17
i find the	17
together with the	17
sun in the	17
found by the	17
in a right	17
the points b	17
make use of	17
what degree of	17
the east and	17
to represent the	17
that may be	17
for it is	17
the french way	17
to the equinoctial	17
by the help	17
the line bd	17
and on the	17
will be a	17
will shew the	16
find the rest	16
in the last	16
which is called	16
a b c	16
the index is	16
and you shall	16
and the brasen	16
in the dyal	16
of these two	16
the longitude and	16
to the angle	16
opposite to the	16
and this is	16
to the co	16
that can be	16
the figure of	16
line in the	16
even with the	16
is easie to	16
the knowledge of	16
hour lines of	16
the suns altitude	16
by the points	16
make a mark	16
the angle of	16
draw lines from	16
in the horizontal	16
of right ascension	16
the pin ab	16
reclination of the	16
of the diall	16
the zenith of	16
east point of	16
the meridian in	16
the point e	16
the first figure	16
there are two	16
hour circle to	16
upon this point	16
under the meridian	16
the brazen meridian	16
nature of the	16
i bring the	16
you will find	16
of the shadow	16
to all sorts	16
of the proper	16
first meridian and	16
it on the	16
the noon line	16
and all the	16
is the point	16
of shadow c	16
you may by	16
the parallel of	16
because they are	16
move upon the	16
globe of the	16
ruler to the	16
fiduciall edge of	16
in regard of	16
close to the	16
the subindicall line	16
if there be	16
have you the	16
the globe of	16
what point of	16
on the south	15
the nature of	15
it is easie	15
star in heaven	15
if the index	15
to the hour	15
come back to	15
direct south dyal	15
to the straight	15
the motions of	15
how to finde	15
describe a circle	15
how to draw	15
the horizon is	15
of the signes	15
which must be	15
of the globes	15
point of one	15
compasse to the	15
degree and minute	15
to draw the	15
then i turn	15
in the evening	15
to the two	15
latitude of your	15
for the sun	15
you come to	15
and the quadrant	15
on the left	15
one from another	15
in one point	15
at the bottome	15
motions of the	15
meet with the	15
placing of the	15
b c d	15
to the axeltree	15
upon the line	15
a clock in	15
suppose to be	15
hole in the	15
to the height	15
which the sun	15
the equinoctial and	15
the face of	15
the double of	15
passes through the	15
to the north	15
rising or setting	15
globe to the	15
to the day	15
figure of the	15
these two points	15
in the world	15
you may make	15
to those which	15
from the foot	15
such as are	15
as far as	15
this is the	15
clock in the	15
is parallel to	15
the equinoctial circle	15
right ascension of	15
from the perpendicular	15
the index must	15
the point in	15
of your dyal	15
in the hour	15
then measure the	15
them to the	15
i make a	15
and if it	15
by the meridian	15
is distant from	15
on the west	15
and those which	15
you shall have	15
of the rest	14
for finding the	14
i of the	14
shew the houre	14
how many degrees	14
that part of	14
the dyal plane	14
north point of	14
other side the	14
angles at the	14
equal with the	14
by the globes	14
pole above the	14
the horizon the	14
and to that	14
you intend to	14
of an hour	14
upon the horizontall	14
is elevated above	14
you shall find	14
it shall be	14
to be found	14
the sun comes	14
of the fixt	14
find out the	14
be described upon	14
is said to	14
if need be	14
meridian with the	14
of the sides	14
to the elevation	14
the other in	14
the south side	14
there make a	14
the colure cut	14
the globes the	14
of your dial	14
in the latitude	14
in this figure	14
on the floor	14
it be a	14
it is said	14
the parallels of	14
to the complement	14
side of it	14
the two places	14
the world is	14
of the indexes	14
above the plane	14
sides of the	14
and with a	14
the point where	14
the proper horizon	14
which you must	14
one of those	14
that point of	14
the placing of	14
to finde how	14
from b to	14
shall shew the	14
horizon and the	14
as hath been	14
example in the	14
globes the solution	14
is it that	14
of the last	14
comming from the	14
the same way	14
the celestial globe	14
longitude of the	14
colure cut the	14
a line parallel	14
end of it	14
degrees as the	14
for that purpose	14
so as the	14
of that which	14
of degrees that	14
it is most	14
from the greater	14
to be drawn	14
more or less	14
you have done	14
may be placed	14
a star of	14
the equinoctiall plain	14
that in all	14
number of years	14
and hour index	14
you must draw	14
as the other	14
of shadow cdf	14
which in this	14
body of the	14
from the middle	14
was placed in	14
made to move	14
then in the	14
shewing by the	14
and extend the	14
first point of	14
one from the	14
much as the	14
line to the	14
the point v	14
is a great	14
the angle a	14
or zenith line	14
the meridian with	14
you have drawn	14
the place where	13
in the heaven	13
each of the	13
this is done	13
of the planets	13
lines drawn from	13
the right angle	13
the ecliptick is	13
not in the	13
and according to	13
marks in the	13
and set off	13
and the remainder	13
counting them by	13
of the sphere	13
therefore it is	13
on the hour	13
that of the	13
pair of compasses	13
to the right	13
of the clinatory	13
hours after the	13
and must be	13
from the proper	13
you must turn	13
the compasse to	13
noon hour lines	13
making of a	13
the line qop	13
halfe of it	13
of these three	13
the index or	13
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