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
the sine of	1156
sine of the	1067
the line of	846
so is the	650
to find the	562
the tangent of	535
of the latitude	499
the complement of	447
to the sine	442
of the suns	423
complement of the	385
from the center	374
tangent of the	370
the cosine of	339
cosine of the	327
is to the	321
of the sun	311
the difference of	275
shall be the	264
distance from the	255
side of the	247
on the line	247
of the angle	237
end of the	229
equal to the	228
the suns declination	227
the nearest distance	225
versed sine of	223
the suns altitude	221
one of the	220
to finde the	218
to the tangent	216
line of sines	215
the versed sine	215
from the meridian	214
the center of	207
the length of	200
the same way	200
part of the	199
is the sine	198
difference of the	194
of the declination	193
to the other	191
center of the	191
line of numbers	188
a line of	188
of the line	184
length of the	182
the end of	181
as in the	179
the other foot	178
east or west	175
of the quadrant	174
from the point	172
the time of	172
secant of the	168
sine of d	167
the distance of	167
the secant of	166
the meridian line	165
the distance between	164
sum of the	163
as the radius	162
the point of	162
out of the	162
as the sine	160
the sum of	160
according to the	160
in the line	159
of the day	159
draw the line	158
of the hour	158
of the meridian	158
the hour from	157
sines of the	157
the latitude of	157
in the morning	154
the thread to	153
is to be	152
the thred to	151
by the line	150
of the altitude	149
lay the thread	146
the use of	143
of the place	142
of the said	142
and of the	141
inclination of meridians	141
time of the	140
then a quadrant	139
and the other	137
and in the	137
of the plain	137
when the sun	134
distance of the	134
the extent from	130
in the limb	129
thread to the	129
of the sines	128
same way from	126
the sines of	126
the inclination of	125
of the other	125
foot of the	125
distance between the	123
on the right	121
to draw the	120
lay the thred	119
the angle sought	118
on the left	117
of the given	117
the angle at	115
the stiles height	114
the versed sines	113
of the world	113
the scale of	112
to the point	112
the number of	112
the meridian of	111
as the cosine	110
edge of the	109
use of the	109
one foot of	108
meridian of the	108
parallel to the	107
of the compasses	107
point of the	107
the square of	107
height of the	107
found to be	107
take the distance	106
the side of	106
of the dyal	106
which is the	106
on the plain	105
if it be	105
the declination of	105
azimuth from the	104
line of lines	104
from the south	104
the distance from	103
the suns azimuth	102
is equal to	102
find the suns	101
the hour of	100
of the horizon	100
thred to the	99
of a circle	99
the height of	98
will be found	98
of the stile	98
and from the	97
of the side	97
elevation of the	96
point in the	95
the substilar line	95
nearest distance from	95
of half the	94
of the two	94
take the nearest	94
in the center	93
declination of the	93
the given angle	92
of the same	92
shall reach to	92
with the other	92
take out the	91
the elevation of	90
you shall find	90
square of the	90
of the pole	90
hour of the	90
the shadow of	89
be found to	88
day of the	88
the azimuth from	88
to the cosine	87
by help of	86
shall reach the	86
on the other	86
in the same	86
p m p	85
altitude of the	85
the other side	85
to sine of	85
m p m	85
to the radius	85
line of the	84
but if the	84
in the point	84
of the azimuth	84
the side sought	84
the altitude of	84
tangent of d	83
to the versed	82
the beginning of	82
reach the same	82
the radius of	81
opposite to the	81
the point b	81
and on the	81
the lines of	81
nearest distance to	80
at the end	79
east and west	78
the content in	78
is in the	78
it may be	78
is the tangent	78
of the versed	78
laying the thread	78
greater then a	77
may be found	76
of the first	76
then take the	75
and draw the	75
of the circle	75
make it a	75
the sun is	74
you have the	74
latitude of the	73
s s s	73
from the north	73
early english books	72
in the limbe	72
of the ark	72
shadow of the	72
superficies of the	72
above the horizon	71
draw a line	71
less then a	70
the cotangent of	70
the angle of	70
of the square	70
past in the	69
the quantity of	69
cotangent of the	69
versed sines of	69
place of the	69
from the sine	68
the hour and	68
to the difference	68
it will be	68
in the figure	68
pole of the	68
and the thread	68
the day of	68
the compasses from	68
of the radius	67
are to be	67
beginning of the	67
the superficies of	67
a table of	67
between the two	67
scale of altitudes	66
the given side	66
the sun hath	66
is the difference	66
of the night	66
is the radius	66
one point in	66
the hours of	66
in the first	65
the ark of	65
hour and azimuth	65
in the afternoon	65
shall shew the	65
to the distance	65
of the former	65
the plains perpendicular	64
declination in the	64
the right edge	64
the point d	64
on the degrees	64
the points of	64
the place of	64
in the meridian	64
the lower figure	64
by the sector	63
the sun or	63
to the meridian	63
radius of the	63
line of chords	62
set one foot	62
and with the	62
to the thread	62
the radius to	62
in the table	62
sines and tangents	61
of your compasses	61
line of tangents	61
of the hours	61
it in the	61
from a to	60
the suns right	60
the first term	60
suns distance from	60
line on the	59
so is to	59
and it shall	59
to the secant	58
the other to	58
content of the	58
hour from noon	58
which may be	58
on the loose	58
the middle of	58
of the complement	57
to the same	57
be less then	57
greater then the	57
to the horizon	57
and take the	57
that is to	57
to the square	57
for finding the	57
the length in	57
the diameter of	57
of the sides	57
on the limb	57
to the line	57
of the stiles	56
english books online	56
the axeltree rod	56
of the plane	56
the stars hour	56
of the compasse	56
the said thread	56
difference between the	56
the center to	56
of the difference	56
of one of	56
the east or	56
to the plain	56
to the thred	55
then you must	55
found in the	55
help of the	55
the suns distance	55
in like manner	54
finde the suns	54
at the same	54
table of the	54
is the same	54
of the reclination	54
difference of longitude	54
of the three	54
in the said	54
in the former	54
a right line	53
of the scale	53
in this case	53
altitude in the	53
and lay it	53
a rule laid	53
of the dial	53
a straight line	53
find the hour	53
perpendicular to the	53
the difference between	52
the radius is	52
in the equal	52
of the sum	52
the difference in	52
the same manner	52
and the same	52
of the th	51
laying the thred	51
to the length	51
the parallels of	51
of the rule	51
toward the end	51
the half sum	51
is the cosine	50
pole is elevated	50
reach to the	50
at right angles	50
the foot of	50
set one point	50
lines on the	50
and a half	50
the substile from	50
way from the	50
and the angle	50
to the complement	50
cosecant of the	50
if the sun	49
less then the	49
of versed sines	49
to be the	49
given to find	49
it is a	49
the latitude and	49
point of entrance	49
the substiles distance	49
of the horizontal	49
and lay the	49
points of the	49
wall or cieling	49
from c to	49
the left edge	49
the th of	48
to the co	48
shall reach from	48
the declination in	48
the thread laid	48
the straight line	48
of the substile	48
so that the	48
the first tearm	48
it to be	48
be greater then	48
and at the	48
poles of the	48
find the content	48
rectangle of the	47
is to say	47
to a th	47
of the axeltree	47
extent from to	47
the rectangle of	47
of a foot	47
the meridian altitude	47
compasses in the	47
will be the	47
but if it	47
the hour lines	47
one point of	47
and then the	47
the horizontal line	47
as the tangent	47
found by the	46
angle opposite to	46
to the suns	46
the thread over	46
the arch of	46
the poles of	46
of the greater	46
the pole of	46
if you have	46
counted on the	46
rule laid from	46
sine of half	46
to a fourth	46
the third term	46
of the third	46
the north pole	46
as to the	45
just touch the	45
rule of three	45
to draw a	45
be in the	45
to find a	45
in the versed	45
the other point	45
and you shall	45
be equal to	45
in the scale	45
radius to the	45
the content of	45
it on the	44
the dial a	44
the elevated pole	44
from thence to	44
taken out of	44
of equal parts	44
the intersection of	44
for the latitude	44
the center a	44
the angle opposite	44
between your compasses	44
from the plains	44
middle of the	44
the same radius	44
distance to it	43
your compasses in	43
it from the	43
to the nearest	43
from the pole	43
but if you	43
north and south	43
for the hour	43
upon the line	43
as you see	43
the other end	43
from b to	43
one foot in	43
from d to	43
to make a	43
to the declination	42
through the center	42
of the hipotenusal	42
of the moneth	42
the particular scale	42
the figure above	42
to be d	42
s a a	42
the first of	42
and make it	42
line from the	42
the wall or	42
axis of the	42
from the east	42
to find how	42
the manner of	42
line of hours	42
on the meridian	42
to the center	41
is called the	41
of the style	41
as it is	41
of the plains	41
sun or stars	41
and to the	41
the opposite side	41
setting one point	41
the second term	41
distance to the	41
in the lower	41
to the first	41
to the latitude	41
suns altitude at	41
laid to the	41
to a semicircle	41
the suns place	41
by the trianguler	41
the said ark	40
the sun being	40
arch of a	40
of a line	40
to the second	40
the point i	40
the true hour	40
the distance run	40
extent of the	40
degrees on the	40
in the second	40
of the second	40
right sine of	40
and setting one	40
then lay the	40
north or south	40
by the former	40
then take out	40
in the middle	40
the line ab	40
of the lesser	40
of the half	39
the third side	39
of the equinoctial	39
taken from the	39
shall find the	39
in feet and	39
the making of	39
it shews the	39
to the angle	39
uses of the	39
represented by the	39
the point o	39
thred to nd	39
laid over the	39
the fixed piece	38
the measure from	38
the azimuth of	38
and the complement	38
the half of	38
on the numbers	38
the uses of	38
to the content	38
when it is	38
the trianguler quadrant	38
a a s	38
latitude of london	38
the houre lines	38
leg to the	38
extend the compasses	38
distance on the	38
side opposite to	38
from the other	38
substiles distance from	38
description of the	38
of an ark	38
a tangent of	37
or in the	37
the table of	37
the altitude sought	37
of the pin	37
draw the hour	37
is the angle	37
the extent of	37
of north declination	37
on the same	37
lay it from	37
feet and inches	37
line of versed	37
and so is	37
the tropick of	37
the higher figure	37
text creation partnership	37
in the sines	37
difference of latitude	37
given in inches	37
into the center	37
the rule of	37
suns right ascention	37
of the object	37
to the side	37
you shall have	36
and it will	36
of the month	36
come to the	36
the same with	36
one and the	36
the suns greatest	36
so the tangent	36
and the sum	36
of the course	36
the other way	36
the plains declination	36
the equal limb	36
added to the	36
finde the hour	36
the true time	36
to find an	36
the new latitude	36
then from the	36
the coast of	36
azimuth of the	36
the tangents of	36
you would have	36
on the head	35
line of latitudes	35
and the point	35
s s a	35
the suns meridian	35
that if the	35
let it be	35
or any other	35
a line drawn	35
a right angle	35
the houre of	35
of natural sines	35
the eleuation of	35
from the beginning	35
ark of difference	35
the stiles elevation	35
to be found	35
the suns amplitude	35
from the substile	35
hour from the	35
counted from the	35
so sine of	35
of the year	35
eleuation of the	35
of the shadow	35
the axis of	35
and if the	35
of the lines	35
the help of	34
scale of entrance	34
from the right	34
half sum of	34
set to the	34
two equal parts	34
content in feet	34
a s s	34
from on the	34
in the superficies	34
in any latitude	34
ark or angle	34
sought as the	34
length in feet	34
in a foot	34
the same extent	34
sines on the	34
the two first	34
to nearest distance	34
the logarithm of	34
from the zenith	34
thence to the	34
and difference of	34
prick off the	34
finding the hour	34
into two equal	34
intersection of the	34
in the equinoctial	34
of the figure	34
it to the	34
according to nearest	34
upon the center	34
of the sine	34
the point g	34
and the hour	33
measure from the	33
on the quadrant	33
and if you	33
is the line	33
lay a ruler	33
then the complement	33
quantity of the	33
the figure below	33
tangent of half	33
lines of the	33
the description of	33
the thread and	33
and the meridian	33
of the limb	33
the turning sight	33
sines from the	33
of the base	33
of all the	33
shall give the	33
be found by	33
find the time	33
in this example	33
based on the	33
a ruler laid	33
is the distance	33
in the latitude	33
and the suns	33
that it may	33
after the same	33
points of shadow	33
radius is to	33
in this manner	33
all sorts of	33
in the triangle	33
the top of	33
is greater then	33
line of natural	32
diameter of the	32
but when the	32
the parallel of	32
which you must	32
extent from the	32
is the complement	32
altitude or depression	32
so the sine	32
at the beginning	32
angle of the	32
of the compass	32
from f to	32
the right sine	32
suns azimuth from	32
of the diameter	32
from the end	32
as a center	32
the fourth term	32
half the difference	32
toward the head	32
the side opposite	32
from the line	32
of sines from	32
half the angle	32
the latitude to	32
of the proportion	32
circle of the	32
to be drawn	32
of the equator	32
of the poles	32
the moons age	32
sun is in	32
one of them	32
find how much	32
then draw the	32
of the tangent	32
from the vertical	32
in the other	32
in the sine	32
but just touch	32
the price of	32
degree of the	31
of the trianguler	31
to the fourth	31
when you have	31
to the number	31
that shall be	31
side sought as	31
and the contrary	31
the scale and	31
the altitude in	31
sum or difference	31
sides of the	31
the declination is	31
be the sine	31
to the diameter	31
and that shall	31
the two points	31
and set the	31
the measure of	31
the remainder is	31
foot on the	31
of the houre	31
top of the	31
of the compassis	31
thread over the	31
of the fourth	31
the contrary way	30
as for example	30
is all one	30
coast of declination	30
from the substilar	30
and the like	30
to the figure	30
to the parallel	30
the other angle	30
azimuth in the	30
sight to the	30
the measured distance	30
parallel of declination	30
the common radius	30
the half circle	30
by the same	30
in the third	30
parallels of the	30
is a line	30
if you would	30
with the meridian	30
as much as	30
beyond the center	30
houre of the	30
that if you	30
and the distance	30
with your compasses	30
in the evening	30
is less then	30
and with this	30
that the sun	30
the same line	30
upon the point	30
the same time	30
is the co	30
either of the	30
the way of	30
to the altitude	30
and the line	30
is the length	30
the south pole	30
the whole line	30
for the suns	30
to be degrees	29
the natural sine	29
of the sunne	29
and the opposite	29
to the third	29
is no other	29
on each side	29
foot in the	29
or by the	29
on the horizontal	29
the point a	29
the other leg	29
the chord of	29
in the lesser	29
and the remainder	29
degrees and minutes	29
having the latitude	29
of the thred	29
the superficial content	29
the th ark	29
rising and setting	29
distant from the	29
of the tower	29
the middle rule	29
the solid content	29
then if you	29
extent at the	29
on the said	29
in the particular	29
each of them	29
sun hath d	29
is the declination	29
parallel sine of	29
thread laid over	29
find an angle	29
the length and	29
on the first	29
to the end	29
on the rule	29
to the right	29
be found in	29
which will be	29
the point f	29
you see the	29
the semidiameter of	29
and the said	29
you will find	29
of the distance	29
to the height	29
from toward the	29
on the moveable	29
the axeltree of	29
greater than the	28
the altitude at	28
make use of	28
if you take	28
degrees and minuts	28
scale and the	28
center to the	28
the point e	28
suns meridian altitude	28
if it were	28
the pole above	28
pole above the	28
foot of your	28
place one foot	28
of any ark	28
the cosecant of	28
any number of	28
to one of	28
the sides of	28
so is sine	28
logarithm of the	28
the altitude is	28
to secant of	28
latitude and declination	28
to on the	28
be the true	28
from the same	28
suns greatest declination	28
particular scale of	28
of difference between	28
of these two	28
angle at b	28
of the points	28
one of those	28
for if you	28
the degrees of	28
then by the	28
foot of timber	28
the general scale	28
in the upper	28
the bead to	27
the suns rising	27
no other then	27
the loose piece	27
the same as	27
that is the	27
suns present altitude	27
true time of	27
sine of an	27
semidiameter of the	27
it be a	27
as the line	27
azimuth from south	27
the point m	27
the suns true	27
to the coast	27
of the glasse	27
other to the	27
of the middle	27
may be drawn	27
to be added	27
under the horizon	27
the stile from	27
and the thred	27
find it to	27
of the whole	27
angles with the	27
point of shadow	27
the sum or	27
the degrees on	27
the compasses in	27
the three sides	27
between the scale	27
in the th	27
to the said	27
as may be	27
you shall finde	27
side of a	27
the first figure	27
on the th	27
line of equal	27
the figure of	27
in the use	27
the edge of	27
which is all	27
and note the	27
degrees from the	27
every one of	27
will find the	27
axeltree of the	27
d in the	27
that you may	27
rising or setting	27
then right against	27
the right hand	27
scale of hours	27
the point c	27
feet and parts	27
of the loose	26
lines of sines	26
it a parallel	26
to the greater	26
a s a	26
found on the	26
issuing from the	26
and the given	26
the latitude is	26
stile from the	26
drawn from the	26
and the difference	26
declination on the	26
keying and markup	26
the place where	26
early works to	26
the parallel sine	26
it a in	26
of the segment	26
from the head	26
will shew the	26
the third tearm	26
sine of deg	26
there will be	26
for the sun	26
counted in the	26
of a quadrant	26
of the new	26
help of a	26
of an arch	26
the distance on	26
of the point	26
of the higher	26
at the pole	26
the suns present	26
from east or	26
the angle between	26
to find his	26
to the former	26
by the scheam	26
of the instrument	26
difference in longitude	26
to the cotangent	26
with this space	26
in the horizontal	26
it shall be	26
and laying the	26
then on the	26
for the substile	26
at the sine	26
of the inclination	26
the sum is	26
is the time	26
the breadth in	26
the former extent	26
on the equinoctial	25
bead to the	25
of the arch	25
you must place	25
a foot of	25
the quadrant of	25
ruler laid from	25
of the stars	25
being in the	25
find the angle	25
it cuts the	25
from the first	25
diameter of a	25
natural sine of	25
at the point	25
meet with the	25
sine in the	25
latitude to the	25
way from to	25
and by the	25
declination from the	25
a in the	25
with the horizon	25
of the sector	25
a parallel in	25
the circle of	25
then set the	25
or the like	25
measured on the	25
of the feet	25
and measure it	25
compasses from the	25
degrees of the	25
into equal parts	25
content of a	25
the lesser sines	25
find out the	25
at any time	25
make a foot	25
more then the	25
you may find	25
then is the	25
and the horizon	25
open the other	25
on that side	25
in the reflected	25
if the given	25
the sun be	24
to the breadth	24
by the lines	24
and the center	24
and the altitude	24
the said line	24
angle at c	24
there keep it	24
so shall the	24
it intersects the	24
as you can	24
the points b	24
measure of the	24
to get the	24
to be sold	24
of the elevation	24
it must be	24
plain of the	24
the altitude required	24
the plain of	24
to make it	24
of the leggs	24
of a plain	24
other foot of	24
drawn on the	24
which shall be	24
it is to	24
a piece of	24
set off the	24
the right ascention	24
in a right	24
to be divided	24
be the tangent	24
from the perpendiculer	24
to the hour	24
on the north	24
from to the	24
be divided into	24
and enter the	24
the right ascension	24
parallels of declination	24
ought to be	24
the hour line	24
as the co	24
sum and difference	23
will be d	23
the sun to	23
the declination from	23
of the thread	23
the center c	23
find the azimuth	23
sine of degrees	23
it shall shew	23
a point in	23
d from the	23
of the triangle	23
the breadth of	23
any of the	23
by the artificial	23
line of contingence	23
instead of the	23
of the sphear	23
that you have	23
by the point	23
but by the	23
in the degrees	23
remainder is the	23
the said extent	23
may be done	23
the azimuth is	23
the description and	23
of the fixed	23
the same point	23
the hipotenusal be	23
to and fro	23
the center at	23
till the other	23
and for the	23
by the th	23
the equal limbe	23
to tangent of	23
setting one foot	23
in the hour	23
of the length	23
north pole is	23
contrary to the	23
the east and	23
of the work	23
difference in latitude	23
of the quadrat	23
parts of the	23
degree of longitude	23
turn the other	23
by this means	23
find the side	23
the dial ground	23
then if the	23
fastened in the	23
out the sine	23
a foot long	23
angle with the	22
go to the	22
would be found	22
you may see	22
from the elevated	22
that part of	22
the lines on	22
so much as	22
of the equinoctiall	22
as you did	22
the angle found	22
so when the	22
represented either as	22
all the rest	22
to touch the	22
the sun in	22
the complements of	22
a quarter of	22
either as utf	22
the center o	22
as before is	22
rectified to the	22
part of a	22
of the lower	22
with the line	22
marked as illegible	22
and the sun	22
of the angles	22
and the length	22
is parallel to	22
to the lesser	22
ark of the	22
the feet of	22
for the azimuth	22
tangents on the	22
will not be	22
parts of a	22
it gives the	22
on the sines	22
is greater than	22
angle at the	22
which you may	22
as the rectangle	22
the two including	22
the proportion will	22
of the center	22
you have a	22
with the angle	22
less than the	22
and you have	22
on the sector	22
the reclination of	22
set one of	22
the terms of	22
if you will	22
right edge of	22
will intersect the	22
d of the	22
passing through the	22
the horizon sight	22
is the center	22
breadth of the	22
compasses from to	22
characters represented either	22
the small quadrant	22
on the wall	22
the reflected horizon	22
a great circle	22
half of the	22
as far as	22
and where the	22
tropick of cancer	21
the space from	21
the thread in	21
north part of	21
and set it	21
third part of	21
complement to d	21
on the fixed	21
thred and plummet	21
the sector stands	21
on the second	21
to work this	21
to do it	21
much as the	21
is in a	21
to its opposite	21
on the center	21
on both sides	21
the suns height	21
nature of the	21
the point v	21
complements of the	21
back to the	21
in the air	21
the proportion is	21
its opposite side	21
the sum and	21
number of degrees	21
the horizontal dial	21
the work is	21
angle at a	21
must place one	21
extent between the	21
the sector at	21
two including sides	21
by a line	21
proper to the	21
perpendiculer to the	21
draw the arch	21
the product of	21
then in the	21
and then it	21
a and b	21
point to the	21
and the converse	21
sine of any	21
where it intersects	21
and enter it	21
to be in	21
in the two	21
a line from	21
thread and plummet	21
and you will	21
the upper semi	21
may also be	21
is the point	21
and set one	21
in the next	21
it shall give	21
the same in	21
and the sine	21
the upper face	21
declination to the	21
piece of timber	21
tearm in the	21
the vertical altitude	21
fitted to the	20
a line to	20
the said reflected	20
upon the quadrant	20
to the common	20
you may have	20
to the true	20
from the particular	20
by the points	20
to work proportions	20
right angles with	20
of one side	20
cut by the	20
thread in the	20
as thus for	20
draw the lines	20
the nd from	20
laid from q	20
other side of	20
dial in the	20
a ruler to	20
it shall reach	20
suns right ascension	20
the middle tearms	20
may be made	20
quadrant to the	20
the thred on	20
be added to	20
one degree of	20
angle between the	20
for the hours	20
one to another	20
it is the	20
and the declination	20
feet of the	20
having the same	20
or depression at	20
in the semicircle	20
the line sol	20
to the given	20
drawn through the	20
equall to the	20
of sines on	20
figure of the	20
either in the	20
at the hour	20
the complement thereof	20
touch the thred	20
the north part	20
found will be	20
draw the circle	20
the line a	20
is the secant	20
its complement to	20
but for the	20
on the diameter	20
half an hour	20
according to mr	20
use of this	20
th part of	20
the moveable leg	20
point of your	20
from the greater	20
the sun will	20
keeping the sector	20
the same distance	20
the dial b	20
set the bead	20
find the square	20
reach from the	20
in respect of	20
on the south	20
from the points	20
ends of the	20
to find out	20
the angle comprehended	20
of the small	20
and the two	20
the same day	20
points b and	20
to the two	20
after the french	20
the converse of	20
is found to	20
than the first	19
and so much	19
as by the	19
the rule to	19
the fourth proportional	19
arch of the	19
one third part	19
and so the	19
the first leg	19
prick down the	19
a ruler from	19
be sold at	19
the line ac	19
the rest of	19
on all hours	19
same with the	19
the moveable piece	19
where it cuts	19
the hour in	19
method of calculation	19
number of feet	19
to find what	19
thread laid to	19
you must add	19
secant of d	19
be taken out	19
it shewes the	19
if the hipotenusal	19
and the product	19
see in the	19
a south plain	19
the meridian or	19
the angles at	19
your line of	19
must be set	19
of in the	19
you see in	19
if you add	19
the stile is	19
the first to	19
from the tangent	19
placing of the	19
the degrees it	19
that end of	19
then it is	19
in the right	19
of the star	19
then the extent	19
the three points	19
the declination to	19
and one of	19
it were required	19
the suns altitudes	19
and from thence	19
the former proportion	19
and the second	19
declination of a	19
to the day	19
by the sun	19
six in the	19
two sides with	19
lay the dial	19
above the plaine	19
answer to the	19
and where it	19
the thred and	19
height above the	19
to make the	19
be required to	19
as the secant	19
hours on the	19
will be to	19
draw with the	19
substile from the	19
the sun shall	19
according as the	19
out the tangent	19
draw the dial	19
of the dyall	19
even with the	19
together with the	19
as well as	19
shew the true	19
the line bd	19
from e to	19
to be deg	19
it and the	18
as the first	18
being turned twice	18
as the cotangent	18
sector at that	18
level of the	18
is the measure	18
the poles elevation	18
with the radius	18
that may be	18
parallel of the	18
thread and the	18
of the containing	18
the pole to	18
as it were	18
be done by	18
describe a circle	18
thus for example	18
lesse then the	18
right ascension of	18
of a great	18
the first and	18
suns altitude in	18
that may meet	18
scale of equal	18
foot in length	18
to the points	18
it sheweth the	18
other end of	18
compasses on the	18
towards the center	18
about the point	18
from v to	18
hours of and	18
of that star	18
a polar plain	18
and the azimuth	18
true hour of	18
measured from the	18
hour from six	18
hath d of	18
off from the	18
because it is	18
line for the	18
makes a foot	18
the natural sines	18
motion of the	18
angle of position	18
proportions in sines	18
so the cosine	18
make a mark	18
it will hold	18
suns declination is	18
ascension of the	18
the parts of	18
pole to the	18
the placing of	18
find the distance	18
of one foot	18
opposite to one	18
of the index	18
the center downwards	18
then a semicircle	18
made equal to	18
the same declination	18
sum is the	18
is the sum	18
the distance in	18
in such sort	18
lines from the	18
a pair of	18
ark in the	18
to the substile	18
of the limbe	18
and of his	18
the limb at	18
to the equinoctial	18
measured in the	18
to the stars	18
to the winter	18
and the tangent	18
were required to	18
of the axis	18
the angle a	18
if need be	18
this is the	18
reason of the	18
it be required	18
the altitude and	18
fall on the	18
the latitude required	18
i call the	18
the end thereof	18
draw the ark	18
then for the	18
the azimuth in	18
extend the other	18
and the side	18
on the upper	17
length and breadth	17
to be a	17
on the edge	17
to prick off	17
as is to	17
when the declination	17
foot of that	17
in the tangent	17
of the gnomon	17
take the suns	17
the winter ecliptick	17
and let the	17
sorts of people	17
twice the same	17
applyed to the	17
shall have the	17
lay off the	17
latitude in the	17
then the latitude	17
as for the	17
and use of	17
enter one foot	17
they may be	17
gives the point	17
so that if	17
of the cosine	17
the th chapter	17
to be measured	17
tangent of an	17
you must have	17
and the nearest	17
the greater sine	17
of the signes	17
the side a	17
over the secant	17
fourth part of	17
the reclination inclination	17
to divide a	17
one end of	17
as sine of	17
of any two	17
from the said	17
product of the	17
half the sum	17
of a clock	17
when the shadow	17
on the under	17
take the sine	17
the french way	17
through the points	17
thred on the	17
if you count	17
to know the	17
the given altitude	17
it will intersect	17
in regard the	17
that extent at	17
from the horizon	17
on the azimuth	17
the moons place	17
will cut the	17
is sine of	17
you have found	17
of an inch	17
one of these	17
the finding of	17
on the index	17
place where the	17
for it must	17
the containing sides	17
d to the	17
have the same	17
the south part	17
the space between	17
tangent of a	17
the under face	17
right against the	17
to half the	17
in finding the	17
a fourth sine	17
finding the azimuth	17
work proportions in	17
how much is	17
shew the hour	17
of the week	17
divided into two	17
and there keep	17
b of the	17
or difference of	17
by the rule	17
first of march	17
left edge of	17
the north and	17
parallel in the	17
by reason of	17
of the number	17
the angle required	17
the substile and	17
find the altitude	17
the horizontall line	17
out the parallel	17
the other two	17
at that gage	17
having found the	17
of the room	17
to the north	17
the ascensional difference	17
altitudes on all	17
of the projection	17
the circles of	17
the tangent required	17
declin d east	17
the meridian is	17
and upon the	17
laying a ruler	17
to the south	17
the suns going	17
the fourth ark	17
the center on	17
will but just	17
you are to	17
line of a	17
is the number	17
the distances of	17
take with your	17
the head of	17
in all other	17
the horizontal projection	17
for this purpose	17
findes the point	17
which are the	17
as the difference	17
between the meridian	17
for the distance	17
the quadrant to	17
if the sum	17
as you may	17
turned twice the	17
drawn into the	17
the point t	17
in the south	17
by the two	17
right angled sphoerical	17
before or after	17
in the points	16
center on the	16
the reflected hour	16
distance from thence	16
of this line	16
is represented by	16
more than the	16
these two points	16
length of a	16
elevation above the	16
c and d	16
point where the	16
be to find	16
edges of the	16
before in the	16
of the sunnes	16
line in the	16
to give the	16
for any other	16
the way to	16
in the analemma	16
you have drawn	16
the pole is	16
to cosine of	16
which in this	16
halfs and quarters	16
sought in the	16
the two sides	16
the index and	16
with the same	16
and azimuth in	16
if you lay	16
must be placed	16
rest of the	16
find the latitude	16
and take out	16
the bulls eye	16
on the backside	16
for the same	16
when the altitude	16
s a s	16
and open the	16
derived from the	16
to be graduated	16
and the foot	16
polar plains reclination	16
at the head	16
is the versed	16
to finde a	16
that in the	16
the new declination	16
in the co	16
the pin ab	16
the greatest declination	16
of the right	16
the stars right	16
converse of the	16
the zenith and	16
product shall be	16
the art of	16
of the rumb	16
of shadow c	16
enter the former	16
from p to	16
and all the	16
the names of	16
divisions of the	16
divided into parts	16
of south declination	16
from the foot	16
or if the	16
of the zodiack	16
it is not	16
to all sorts	16
of the head	16
from the middle	16
will be less	16
is the greater	16
the midnight meridian	16
laid from the	16
cut the line	16
superficial content of	16
from in the	16
in the summer	16
hole in the	16
the cube of	16
above the plain	16
hour in the	16
an hour past	16
shall stay at	16
then the nearest	16
the right way	16
on the hour	16
to any radius	16
the square to	16
the other sides	16
and declination of	16
in the forenoon	16
proportion between the	16
above the substile	16
of right angled	16
distance in the	16
the product shall	16
sine of a	16
of the shaddow	16
given angle be	16
hour line of	16
they shall be	16
of that arch	16
of the clock	16
in the dyal	16
the point r	16
for the stiles	16
the sine thereof	16
south or north	16
or which is	16
clock in the	16
the head leg	16
the circle bcde	16
to the wall	16
tropick of capricorn	16
the true content	16
is found by	16
be the radius	16
toward the south	16
the night by	16
on the back	16
upon the plain	16
in the winter	16
to cosecant of	16
circle on the	16
the proportion to	16
suns going off	16
touch the thread	16
in a straight	16
the point p	16
that when the	16
and the scale	16
if the declination	16
points in the	16
the sunne is	16
upon this point	16
shall divide the	16
and are to	16
solid content of	15
markup reviewed and	15
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to the terms	15
i text is	15
the like for	15
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tcp assigned for	15
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the early english	15
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encoded edition of	15
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kb of xml	15
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online text creation	15
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of the eye	14
the content required	14
hours and minutes	14
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those two points	14
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the limb from	14
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in our latitude	14
shall be a	14
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the point l	14
shall find it	14
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breadth in inches	14
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on the floor	14
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foot to the	14
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the suns ascension	14
to the whole	14
first day of	14
sine of declination	14
from the half	14
which must be	14
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in this latitude	14
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i would know	14
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the th term	14
you have in	14
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the degrees from	14
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of the plaine	14
the difference is	14
line of degrees	14
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the first operation	14
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extend the thred	14
the degrees and	14
be the same	14
the equinoctial line	14
line parallel to	14
on the contrary	14
in that line	14
equal with the	14
by taking the	14
of the four	14
then substract the	14
the mean diameter	14
on a quadrant	14
that can be	14
through which the	14
description and use	14
the circle into	14
in the horizon	14
without the help	14
on the east	14
the first part	14
between the thread	14
a th ark	14
the declination and	14
so in the	14
must lay the	14
set half the	14
the drawing of	14
to prick down	14
sun being in	14
of the ecliptick	14
of the heavens	14
may find the	14
of the houres	14
end of it	14
the rate of	14
the differences of	14
the sun comes	14
you are in	14
the sun have	14
then the proportion	14
length in inches	14
then will the	14
other foot according	14
if the suns	14
by the quadrant	13
time of sun	13
of the polar	13
if the two	13
the interjacent side	13
sides with the	13
parallel unto the	13
as the sector	13
bd of the	13
two or three	13
having drawn the	13
scale of sines	13
by the center	13
segment of a	13
all manner of	13
as the latteral	13
reclining or inclining	13
the second tearm	13
third to the	13
two lines of	13
the diameter in	13
so cosine of	13
the sine to	13
or tangent of	13
two first tearms	13
the moons hour	13
a b c	13
the horizon and	13
of the east	13
set the first	13
the base or	13
by the rules	13
may be taken	13
in the circumference	13
hour and quarter	13
as in this	13
and it is	13
the parralel of	13
and draw lines	13
of the aequinoctiall	13
an east or	13
affection of the	13
of the horizontall	13
in one and	13
the first place	13
the circle on	13
that in all	13
distance from a	13
you shall see	13
the vses of	13
of the north	13
of sun rising	13
the upper quadrant	13
the other the	13
and also the	13
how much the	13
to a new	13
the line qop	13
and keeping the	13
in the azimuth	13
line may be	13
the reflected meridian	13
and foot long	13
till you see	13
open your compasses	13
day of march	13
altitude on the	13
then laying the	13
angled sphoerical triangles	13
and lay off	13
or line of	13
by the length	13
the demonstration of	13
the th part	13
the present altitude	13
it would be	13
are the same	13
down the line	13
in the place	13
first draw the	13
quadrant of latitudes	13
on the foreside	13
the angle the	13
on the dial	13
set on the	13
time of rising	13
give you the	13
used in the	13
the hour will	13
between it and	13
a direct north	13
half difference of	13
arks on the	13
is the altitude	13
at degrees high	13
of the turning	13
that arks complement	13
lines in the	13
to the beginning	13
by laying the	13
find the third	13
on the opposite	13
by applying the	13
and the square	13
all the uses	13
your compasses unto	13
would have the	13
and to be	13
applied the same	13
on the day	13
point of one	13
to the latteral	13
is alwayes the	13
horizontal line of	13
with this opening	13
the compasse to	13
get the sum	13
as you shall	13
divide it into	13
now if you	13
the logarithms of	13
degrees of altitude	13
line of six	13
former extent between	13
page to find	13
the thred shall	13
of the perpendiculer	13
to set the	13
the height required	13
sine to the	13
th to the	13
common to both	13
an angle of	13
declination of any	13
on the square	13
for the angle	13
divide the space	13
the pin b	13
reclination or inclination	13
to in the	13
cutting the line	13
are equal to	13
you may make	13
an acute angle	13
hours after the	13
measure it on	13
by the first	13
the said arch	13
be taken off	13
back again to	13
to the plains	13
of natural tangents	13
root of a	13
to divide the	13
reclination of the	13
right angled triangles	13
is from the	13
and let it	13
every degree of	13
a parallel sine	13
the annexed tangent	13
sine of ad	13
of the amplitude	13
the tenth of	13
parralel of altitude	13
index and square	13
other of the	13
suns altitude on	13
i would have	13
all the hour	13
given to finde	13
which you have	13
artificial sines and	13
be less than	13
the summer ecliptick	13
winter meridian altitude	13
if the other	13
altitude on all	13
with the space	13
also in the	13
i of the	13
sine of one	13
of halfe the	13
the most part	13
the index to	13
then in regard	13
making of a	13
if one of	13
the hipotenusal as	13
the eye and	13
of the complements	13
so much is	13
must needs be	13
on one side	13
is the nearest	13
from the left	13
the ark or	13
get the difference	13
upon the points	13
for if the	13
meet with it	12
because the sun	12
other part of	12
equal to a	12
the versed scale	12
south and north	12
of the moon	12
the meridian between	12
given the side	12
go and mark	12
side less then	12
the nature of	12
in the greater	12