quadgram

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 sine of the636
to the sine of401
the complement of the370
the cosine of the293
the tangent of the265
the versed sine of202
to the tangent of201
on the line of198
the center of the188
is the sine of184
the line of numbers181
so is the sine174
the length of the164
the difference of the160
the line of sines153
as the sine of145
versed sine of the141
the end of the139
by the line of128
the thread to the128
the same way from126
the sum of the126
sine of the suns125
the distance of the122
sine of the latitude120
the secant of the119
the inclination of meridians116
of the line of113
as the cosine of110
the distance between the108
in the line of105
of the suns declination104
complement of the latitude103
sine of the hour102
the thred to the99
of the sines of97
the meridian of the96
sine of the angle96
the sines of the96
the time of the95
of the hour from93
the sine of d92
the line of lines92
to the other foot91
the nearest distance from91
lay the thread to90
of the suns altitude89
lay the thred to89
the elevation of the89
take the nearest distance88
the square of the88
to the cosine of86
the height of the85
p m p m85
cosine of the latitude82
reach the same way81
the side of the81
to find the suns80
to the versed sine80
the use of the79
be found to be79
the nearest distance to79
shall reach the same78
is equal to the78
m p m p75
elevation of the pole74
is the tangent of74
sine of the azimuth71
the shadow of the70
tangent of the latitude70
the latitude of the70
greater then a quadrant69
the versed sines of68
will be found to67
the declination of the66
the beginning of the65
the tangent of d65
is to the sine65
the superficies of the65
s s s s63
from the sine of63
the altitude of the63
so is the tangent62
difference of the versed62
sine of the declination62
of the versed sines61
latitude of the place61
less then a quadrant61
so is the radius60
side of the square59
of the angle sought59
the hour of the58
the hour and azimuth57
the day of the57
declination of the sun56
the east or west56
early english books online56
the hour from noon55
the cotangent of the55
to the secant of55
the azimuth from the54
when the sun hath54
take the distance between53
laying the thread to53
suns distance from the52
the suns distance from52
versed sines of the52
of the complement of51
the radius of the51
to the difference of50
in the center of50
the place of the50
to the square of50
thread to the other50
superficies of the dyal50
cosine of the declination49
is the cosine of49
hour of the day49
to the complement of49
to find the content48
of the given angle48
laying the thred to48
time of the day48
of the side sought48
is the difference of48
the point of entrance48
meridian of the place48
secant of the latitude47
the rectangle of the47
the declination in the47
the extent from to47
at the end of47
the foot of the47
that is to say47
to finde the suns47
a rule laid from46
the distance from the45
the point of the45
to find the hour45
on the other side44
so is the difference44
one foot of the44
altitude of the sun44
the radius to the44
nearest distance to it43
part of the meridian43
and draw the line43
of the azimuth from42
as the tangent of42
of one of the42
the pole of the42
versed sine of d42
nearest distance from the41
of your compasses in41
sine of half the41
the suns altitude at41
tangent of the suns41
a table of the41
the poles of the40
and with the other40
the sine of half40
to the nearest distance40
cosine of the altitude40
the middle of the40
by help of the40
the wall or cieling39
of the given side39
the thred to nd39
of the stiles height39
past in the morning38
the difference of longitude38
extent of the compasses38
of the angle at38
to sine of the38
complement of the suns38
s a a s38
you shall find the37
sine of the altitude37
from the center to37
a line of chords37
so is the cosine37
edge of the quadrant37
with the other foot37
the substiles distance from37
the sun or stars36
sines of the suns36
hour of the night36
difference of the sines36
the line of hours36
the suns right ascention36
the extent of the36
the angle opposite to36
from the center of36
one point in the36
square of the radius36
and lay it from36
substiles distance from the35
and make it a35
line of versed sines35
be equal to the35
the eleuation of the35
complement of the angle35
one and the same35
in the scale of35
and the complement of35
set one foot of35
so the tangent of35
extend the compasses from35
for the latitude of34
of the sun or34
according to nearest distance34
the axis of the33
to finde the hour33
day of the month33
the length in feet33
from the plains perpendicular33
of the substile from33
center of the quadrant33
time of the suns33
same way from the33
as the radius is33
day of the moneth33
shall reach to the33
the radius is to32
a s s a32
after the same manner32
into two equal parts32
nearest distance to the32
point of the compasses32
the suns azimuth from32
is the radius to32
from thence to the32
the content in feet32
the scale of entrance32
be less then a32
the sun is in32
the quantity of the32
of the said ark31
to the same radius31
of the hours of31
the thread over the31
when the sun is31
azimuth from the south31
table of the suns31
set one point in31
half sum of the31
line of sines from31
the intersection of the31
in the latitude of31
the line of the31
the difference between the31
of the difference of31
radius is to the31
to find how much31
the ark of difference31
distance from the meridian30
in the equal limb30
to the point of30
of the meridian line30
sine of the stiles30
foot of the compasses30
the scale of altitudes30
and so is the30
the tangent of half30
the coast of declination30
the side sought as30
the half sum of29
find the content in29
the arch of a29
the sun hath d29
is to the cosine29
then take out the29
to the radius of29
then the complement of29
to find an angle29
the thread laid over29
a line of sines29
the difference of latitude29
the line of latitudes29
so the sine of29
the right sine of29
of the compasses from29
cotangent of the latitude29
azimuth of the sun29
of a line of29
poles of the world28
the suns greatest declination28
the side opposite to28
take the distance from28
is to the radius28
your compasses in the28
taken out of the28
of the pole above28
center of the dial28
the scale and the28
to the content in28
given to find the28
sine of the side28
angle opposite to the28
the suns meridian altitude28
is the complement of28
the line of tangents28
of the ark of28
in the lower figure27
sines from the center27
the other to the27
foot of your compasses27
ark of difference between27
to find the time27
of half the angle27
the degrees on the27
but if it be27
the latitude of london27
sine of the difference27
parallel to the horizon27
at the same time27
in the sine of27
the altitude in the27
but just touch the27
arch of a circle27
be greater then a27
the top of the27
find the suns altitude27
of the stile from27
the particular scale of27
the measure from the27
be the sine of27
between the scale and27
the angle at b26
from the east or26
side opposite to the26
scale and the thread26
of the higher figure26
beginning of the line26
of the sine of26
sum of the sines26
the semidiameter of the26
the axeltree of the26
one foot of your26
to the cotangent of26
in the superficies of26
the distance on the26
the true time of26
from east or west26
line of equal parts26
of the angle opposite26
the point of shadow26
make it a in26
the azimuth of the26
the description of the26
find the time of26
suns azimuth from the26
true time of the26
line on the plain26
of sines from the26
to secant of the25
of the inclination of25
rectangle of the sines25
the logarithm of the25
to the distance between25
on the right edge25
the pole above the25
one of the feet25
half the difference of25
tangent of the angle25
which is all one25
make it a parallel25
complement of the poles25
then lay the thread25
the stile from the25
of the latitude to25
the cosecant of the25
on the left edge25
from the end of25
to draw the hour25
to the line of25
the angle of the25
if it be a25
and that shall be25
of the plains declination25
the diameter of the25
one foot in the25
pole of the plain24
thread laid over the24
the suns present altitude24
to the coast of24
in feet and parts24
length of the day24
one point of the24
in the versed sine24
the measure of the24
the points of the24
sum of the two24
the parallel sine of24
that shall be the24
foot of the compassis24
a ruler laid from24
and the opposite side24
is to the tangent24
find it to be24
so is the co24
and from the point24
of the latitude and24
tangent of half the24
at the sine of24
setting one point in24
complement of the altitude24
use of the line24
past in the afternoon24
meridian of the plane24
and with this space24
as in the figure24
the natural sine of24
of the axeltree rod23
distance to the thread23
of difference between the23
same way from to23
distance from the plains23
one of the hours23
of the compasses in23
opposite to the other23
be found in the23
other foot of the23
take out the sine23
azimuth from the north23
found to be d23
side sought as the23
height of the stile23
s s a a23
the plain of the23
the compasses from the23
the north pole is23
tangent of the declination23
lay the thread over23
line of natural sines23
thred to the nearest22
distance from the pole22
and setting one point22
complement of the declination22
of the suns greatest22
a a s s22
the right edge of22
and lay the thred22
represented either as utf22
the rule of three22
set one of the22
to the number of22
the bead to the22
the sine of deg22
a foot of timber22
end of the line22
find the suns azimuth22
side of the quadrant22
center of the glasse22
the edge of the22
is a line of22
the east and west22
from the right edge22
of the half sum22
characters represented either as22
the circle of the22
right edge of the22
axeltree of the dyal22
the parallels of the22
and of the ark21
set one foot in21
of the lower figure21
the lines of the21
thred to the other21
as in the table21
the latitude and declination21
you must place one21
particular scale of altitudes21
equal to the sine21
it a parallel in21
out the sine of21
upon the line of21
pole of the world21
and on the degrees21
the remainder is the21
sine of the course21
laid to the other21
the compasses from to21
of the suns azimuth21
from the elevated pole21
the angle at c21
and take the nearest21
the center to the21
must place one foot21
the lines on the21
the uses of the21
north part of the21
the extent from the21
is no other then21
the two including sides21
north pole is elevated21
distance of the stile21
to the point b21
and lay the thread21
line of sines on20
so when the sun20
so is the length20
from the point b20
place one foot of20
in a foot long20
that part of the20
is the same with20
right sine of the20
end of the horizontal20
distance of the substile20
of the figure above20
from the point of20
the sum and difference20
by help of a20
meridian of the plain20
axis of the world20
part of the horizon20
to the thread laid20
of the third side20
foot of the compasse20
find the hour of20
the line of contingence20
the tropick of cancer20
is the time of20
the hour from the20
from the beginning of20
sine of the said20
the other side of20
of the sum of20
to the length of20
the suns right ascension20
issuing from the center20
point of your compasses20
then draw the line20
from the line of20
is found to be20
distance from the elevated19
the same with the19
shall be the sine19
right angles with the19
the latitude to the19
from the point d19
by a line of19
distance from the sine19
the diameter of a19
cosine of the given19
of the suns distance19
is the secant of19
to find the angle19
equal to the complement19
the thread in the19
and laying the thread19
hour from the meridian19
and the line of19
be the tangent of19
a line of versed19
complement of the other19
time of the night19
if the hipotenusal be19
is the line of19
at the beginning of19
thread laid to the19
to make a foot19
to its opposite side19
end of the rule19
one of the sides19
shall be the true19
the houre of the19
cosine of the angle19
to be sold at19
the thread laid to19
of the feet of19
and the sine of19
sine of the ark19
as the secant of19
distance from the center19
it from the center19
the angle between the19
from the meridian line19
sun is in the19
the substile from the19
laying the thread over19
on the wall or18
come to the meridian18
of the three sides18
of half the difference18
the line of natural18
the angle at a18
from the particular scale18
the sector at that18
set one point of18
to find the azimuth18
keeping the sector at18
sines of the third18
from the center downwards18
so the cosine of18
rule laid from q18
line of the suns18
as the rectangle of18
the thread and the18
it shall reach to18
the feet of the18
to the common radius18
sum of the three18
if the sun be18
houre of the day18
the suns declination is18
length of the shadow18
and the remainder is18
in the use of18
the hour from six18
opposite to one of18
is less then the18
finding the hour and18
the hours of and18
the true hour of18
if the given angle18
the suns altitude in18
in the same manner18
the north part of18
the sine of an18
it were required to18
one point of your18
of the said thread17
true hour of the17
and you shall find17
in the versed sines17
to one of them17
of the scale of17
and the other to17
a line of tangents17
are to be sold17
just touch the thred17
would be found to17
and setting one foot17
measure from the center17
radius to the sine17
of the latitude is17
turned twice the same17
the points b and17
be greater then the17
will but just touch17
and there keep it17
to the side sought17
and it shall reach17
the right ascension of17
and the thread laid17
to work proportions in17
eleuation of the meridian17
to find the side17
the first of march17
all sorts of people17
to tangent of the17
twice the same way17
sine of the given17
that end of the17
half the angle sought17
it is to be17
drawn into the center17
of the suns right17
and in the line17
complement of the reclination17
the declination of a17
secant of the declination17
to find the distance17
after the french way17
a point in the17
so is sine of17
the other end of17
then from the point17
sector at that gage17
as you see in17
is greater than the17
to the end of16
over the secant of16
square of the sine16
other side of the16
tangent of the reclination16
the left edge of16
at the hour of16
of the meridian of16
end of the said16
one of the middle16
tangent of the complement16
sine of the sum16
azimuth from the meridian16
the center on the16
the suns going off16
height of the sun16
on the degrees it16
pole above the plaine16
as the cotangent of16
time of the year16
on the th of16
the tangent of an16
of the containing sides16
other end of the16
the length and breadth16
and are to be16
of sines on the16
from the meridian of16
is greater then the16
out of the line16
as thus for example16
where it intersects the16
product shall be the16
of the length of16
left edge of the16
of the fixed piece16
to the height of16
of the trianguler quadrant16
every one of the16
to the winter ecliptick16
take the sine of16
the given angle be16
to find the latitude16
the converse of the16
sun hath d of16
it a in the16
the line of versed16
the pole to the16
the other foot of16
the product shall be16
with the meridian line16
in a straight line16
open the other to16
the azimuth from south16
take out the parallel16
enter one foot of16
the rest of the16
one of the points16
of the th ark16
end of the meridian16
is the versed sine16
you see in the16
to all sorts of16
it shall shew the16
according to the terms15
by the institutions providing15
to cosine of the15
and the nearest distance15
the angle at the15
lay it from the15
of the center of15
laid from q to15
the thred on the15
all without asking permission15
to the latitude of15
line of the plain15
english books online text15
secant of the given15
the work described above15
it be required to15
keyboarded and encoded edition15
images scanned from microfilm15
enter the former extent15
the compasses on the15
the early english books15
providing financial support to15
as before is shewed15
come back to the15
and take out the15
and encoded edition of15
and markup reviewed and15
coded from proquest page15
sum and difference of15
for finding the hour15
the institutions providing financial15
is to the distance15
this phase i text15
assigned for keying and15
one foot of this15
encoded edition of the15
for keying and markup15
to the terms of15
as the difference of15
work described above is15
eleuation of the stile15
as the radius to15
your line of chords15
of the night by15
the placing of the15
on the fixed piece15
to the early english15
the content of the15
phase i text is15
is to the secant15
terms of creative commons15
the sum is the15
the difference in longitude15
the sine of any15
support to the early15
encoded text transcribed from15
then the nearest distance15
and coded from proquest15
markup reviewed and edited15
is parallel to the15
foot on the right15
the lines of sines15
books online text creation15
be less then the15
the compasses in the15
this keyboarded and encoded15
of the suns going15
from proquest page images15
is to the square15
tangent of the given15
is available for reuse15
and the given angle15
text can be copied15
in the middle of15
the complements of the15
just touch the thread15
to a fourth sine15
i text is available15
text and markup reviewed15
use of the trianguler15
to the figure below15
edition of the work15
the first to the15
in feet and inches15
of the elevation of15
from the pole to15
owned by the institutions15
how much is in15
and open the other15
from the substilar line15
sum of the sides15
measured from the center15
point of the pin15
foot of this extent15
the text can be15
the line of equal15
of the cosine of15
iv tiff page images15
of the suns place15
the points of shadow15
keyed and coded from15
described above is co15
or which is all15
the terms of creative15
day of the week15
financial support to the15
even for commercial purposes15
foot of that extent15
tcp assigned for keying15
one foot of that15
half the sum of15
is represented by the15
of the work described15
institutions providing financial support15
the sides of the15
secant of the altitude15
online text creation partnership15
the side of a15
is in a foot15
text is available for15
to be divided into15
from the foot of15
the sum or difference15
the dial a upon14
a s a a14
the sine of a14
it shall be the14
cuts the limb at14
the scale of hours14
some uses of the14
the parallels of declination14
of the horizontal line14
the use of this14
the tropick of capricorn14
you shall have the14
set the bead to14
the first day of14
thred to the nd14
minutes past in the14
a a s a14
height of the style14
is the distance of14
if it were required14
altitudes on all hours14
in the lesser sines14
you must lay the14
will be less then14
the tangent of a14
be taken out of14
points of shadow cdf14
when the declination is14
at the point of14
to the day of14
in the equal limbe14
description and use of14
a parallel in the14
of a great circle14
tangent of the hour14
of the declination in14
to cosecant of the14
the breadth in inches14
it will intersect the14
the latitude in the14
the south pole is14
to find the altitude14
to the distance run14
to find out the14
in the meridian line14
of the pin ab14
the sun being in14
the superficial content of14
the sun will be14
shall reach from the14
of the lines of14
when the altitude is14
third part of the14
to the straight line14
sum or difference of14
a clock in the14
the night by the14
of this extent at14
the north and south14
right ascension of the14
the other foot according14
and at the same14
other foot according to14
is to be found14
setting one point of14
is greater then a14
foot of the stile14
between the thread and14
to the meridian of14
place of the sun14
stile from the substilar14
sine of the th14
and the tangent of14
hour and azimuth in14
the answer to the14
place of the dyal14
secant of the angle14
length of the shaddow14
finde the suns azimuth14
the breadth of the14
half an hour past14
for finding the azimuth14
of the middle tearms14
of the latitude of14
and you have the14
south part of the14
may be found by14
much is in a14
shadow of the thred14
the declination from the14
which shall be the14
for the inclination of13
the sine of one13
measure it on the13
all the uses of13
finde the hour of13
the angle of position13
of the pin b13
of the side opposite13
and to the other13
the latitude is to13
being turned twice the13
required to find the13
the index and square13
the content of a13
to find the third13
former extent between the13
the suns altitude on13
suns altitude in the13
the description and use13
down the line of13
the ark of the13
declination of the plain13
between the eye and13
the half of the13
sine of one of13
foot of the compass13
to the breadth in13
azimuth from the vertical13
out of the greater13
equal to the angle13
without the help of13
contrary to the coast13
compasse to the point13
by the trianguler quadrant13
altitude or depression at13
between it and the13
or pole of the13
of the suns meridian13
of the meridian altitude13
that extent at the13
the finding of the13
sides with the angle13
two sides with the13
distance between the two13
distance from thence to13
of that arks complement13
it shall give the13
one third part of13
lay a ruler from13
from the half sum13
take out the tangent13
if you would have13
after the manner of13
upon the center a13
an east or west13
of the compasse to13
of the new latitude13
and it shall be13
time of sun rising13
the first leg to13
the horizontal line of13
pole to the plain13
dial a upon the13
and of the difference13
south pole is elevated13
axis of the horizon13
the quadrant to the13
and one of the13
distance of the meridian13
the place where the13
term is to the13
be found by the13
out the tangent of13
to the figure above13
they shall be the13
find how much is13
the line a b13
the making of a13
secant of the complement13
with the angle comprehended13
the angle at d13
the length in inches13
finde the suns altitude13
on the sine of13
applied the same way13
of the hipotenusal as13
the hour will be13
and the meridian of13
draw a line to13
out of the center13
arks on the plain13
and the foot of13
extent between the scale13
in one and the13
laid over the secant13
find the length of13
sine of an ark13
you shall find it13
the angle of and13
lay the dial a13
from the point i13
be added to the13
natural sine of the13
the difference in latitude13
so tangent of the13
that th to the13
the two first tearms13
parallel sine of the13
from the next equinoctial13
line of a clock13
scale of equal parts13
the sine of degrees13
the time of sun13
the former extent between13
the south part of12
found to be deg12
equal to the latitude12
of the tangent of12
be to find the12
of the sun from12
of the substiles distance12
then take the nearest12
and the distance of12
draw a straight line12
till you see the12
let it be required12
the sector stands at12
compasses in the point12
to the sum of12
cosecant of the side12
to prick off the12
and keeping the sector12
side of the loose12
and measure it on12
in the figure below12
by the lines of12
of the half circle12
superficies of the dyall12
the suns height at12
so sine of the12
from toward the end12
at the cosine of12
in like manner may12
the second term is12
a pair of compasses12
the cuspis of the12
on the opposite side12
from the scale of12
the figure of the12
the sine of that12
shall be the tangent12
if the sun have12
sine of an arch12
it on the line12
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the tangent of degrees8
whole length of the8
be set to the8
the meridian line be8
content of the base8
as i have said8
to the scale of8
the line of altitudes8
with the radius of8
the inside of the8
plaine of the meridian8
of the said glasse8
a ruler laid to8
you have the time8
found to be the8
thred to the day8
of these two arks8
tangent of a fourth8
if you count from8
greater then the complement8
from the first to8
it is in the8
of the stile is8
you shall finde it8
on the right side8
with the plaine of8
of the leggs from8
to the second term8
at foot in length8
is the declination from8
before in the morning8
and there will be8
of the fitted scale8
the line of houres8
is to be graduated8
half the tangent of8
a piece of timber8
to the line ab8
the point i of8
from the center is8
the answer in the8
as in the second8
find the content of8
and note the place8
passing through the center8
the space from the8
points of the horizon8
to the use of8
with this space go8
as the cosecant of8
it in the line8
to which if you8
east and west incliners8
this space go to8
quantity of the angle8
is to be drawn8
of the dyal is8
be less than the8
in the tangent of8
the number of inches8
depression under the horizon8
the given angle is8
it will cut the8
of the angle adjacent8
to finde the angle8
tangent of the lesser8
cosine of half the8
or other of the8
sine of the substile8
the distance between and8
of the other to8
point of shadow c8
greater or less then8
the season of the8
so that if you8
equal to the sum8
the stiles height above8
we may find the8
product of the two8
differences of the leggs8
is distant from the8
it shews the azimuth8
draw the hour lines8
and they shall be8
the legs of the8
of the horizontal dial8
the suns altitude or8
the body of the8
sine of the rumb8
will be found in8
the diameter in inches8
the summer half year8
from the first term8
declining from the south8
reproduction of original in8
of the suns ascension8
and turn the other8
above that end of8
the beams of the8
may be called the8
on the left is8
the place where you8
the sines and tangents8
the three points of8
the other given side8
east reclining d lat8
the thread being laid8
the th term required8
azimuth in the equal8
is made equal to8
one side of the8
of a fourth ark8
same extent applied the8
hour from towards noon8
much in length makes8
to find his declination8
from the point e8
distance from d to8
d from the south8
side opposite to one8
in the table of8
you have in the8
and tenth parts of8
the sine is to8
the suns altitude is8
thread fixed in the8
find the suns declination8
the residue is the8
to be added to8
touch the wall or8
and just against it8
angle found will be8
on each side the8
of the sun above8
then carry the compasses8
draw the circle bcde8
rectangle or product of8
the sun or star8
the motion of the8
side of the instrument8
the right angled triangle8
the given angle acute8
poles of the zodiack8
difference of versed sines8
either in the morning8
see in the figure8
then you must lay8
its complement to d8
the thread lying over8
about may but just8
one leg to the8
the side a b8
and the length in8
which is to be8
point of shadow d8
points of the compasse8
in the general scheam8
in summer is the8
the angle found will8
center of the dyal8
remain is the declination8
with your compasses the8
term is greater than8
the compassis in the8
out the parallel sine8
of the reclination of8
azimuth will be found8
the rectangle or product8
so is the third8
if you have a8
which is called the8
azimuth from east or8
help of the limb8
which is equal to8
enter it at the8
and the sum of8
the parts of the8
the first and second8
ledge of the fixed8
or the complement of8
and azimuth of the8
arks at the pole8
greatest declination of the8
is the logarithm of8
it from c to8
on the meridian from8
to find the true8
required to be found8
the latitude and altitude8
the true time sought8
of the bulls eye8
finde it to be8
cotangent of the given8
clock in the morning8
thread to the complement8
draw lines into the8
of the same radius8
the suns declination being8
in the end of8
and use of the8
the moons true place8
leggs from the half8
and enter one foot8
so is to a8
of the superficies of8
a side opposite to8
and the azimuth of8
on the same line8
you must turn the8
to find the hipotenusal8
of the carpenters rule8
the degrees it shall8
content in feet and8
m p m horizo8
zenith and the elevated8
declination out of the8
circle of the point8
a thread and plummet8
from the point g8
to prick down the8
with the line of8
perpendicular to the meridian8
is the declination of8
shall shew on the8
c as a center8
is the square of8
the sine complement of8
the reclination of a8
is equall to the8
point of the compasse8
altitude of the segment8
the bead amongst the8
the suns altitude for8
parts cut by the8
sine of the greatest8
d east reclining d8
and lay off the8
to the points of8
on the limb from8
in the second figure8
or feet and inches8
down from the center8
to every one of8
of the compassis in8
latteral tangent of the8
given angle be obtuse8
then the nd from8
of the tangent required8
at the other end8
the cosine of an8
of the first figure8
height above the substile8
the north end of8
the point in the8
of the first ship8
thread to the tangent8
and the bead amongst8
in the vertical circle8
upon the lines of8
to find the quantity8
may be found the8
in the center a8
secant of the hipotenusal8
a line drawn into8
so in summer is8
by the index and8
with the center of8
to the horizontal line8
the hours after the8
and the declination in8
less then a semicircle8
page to find the8
angle between the two8
east and west recliners8
if you have been8
line drawn into the8
the line bd of8
lines into the center8
as the sine is8
the answer will be8
to find the point8
on the loose piece8
south plaine declin d8
the table of the8
of the tower above8
draw a right line8
content of the whole8
interpose between the eye8
finde the inclination of8
the artificial sines and8
the nearest to the8
the complement thereof to8
a south plaine declin8
and the sum is8
brick and a half8
on the left hand8