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
shown in fig	1236
end of the	875
of the work	651
as in fig	632
so as to	601
as shown in	599
side of the	537
by means of	521
so that the	518
the end of	495
the amount of	475
the diameter of	471
diameter of the	460
in which the	449
the length of	420
face of the	410
is shown in	410
it may be	398
it is obvious	391
part of the	374
the centre of	365
a piece of	357
length of the	345
the direction of	343
of the teeth	332
it will be	326
the line of	322
is obvious that	315
that of the	308
the case of	308
in this case	303
in the case	302
centre of the	299
the number of	297
the face of	294
of the tool	294
on the other	293
of the wheel	287
is to be	274
the work is	268
a right angle	265
edge of the	258
shown in the	250
in the figure	247
surface of the	242
and it is	240
at a right	239
sides of the	233
angle to the	232
number of teeth	231
of the thread	226
as well as	225
the point of	225
in the direction	225
the top of	223
of an inch	219
the cutting edge	218
to the work	216
at the same	216
right angle to	215
of the crank	207
is provided with	204
may be used	203
of the machine	202
the pressure of	202
as in the	201
so that it	200
of the cylinder	199
the use of	199
of the same	198
of the lathe	198
top of the	196
pressure of the	195
the surface of	194
the thickness of	192
the bottom of	189
means of the	189
in the same	185
the axis of	182
bottom of the	182
provided with a	182
in order to	181
at an angle	180
the edge of	180
in the lathe	180
of the shaft	179
denoted by the	179
the ends of	179
line of the	179
one of the	178
the pitch circle	177
may be made	177
a pair of	176
ends of the	173
as it is	173
motion of the	172
the other end	172
the lead screw	168
to the other	165
of the belt	164
the same time	164
at the end	162
of the tooth	160
on account of	159
in other words	158
which may be	155
on one side	154
thickness of the	154
of the cutter	154
contact with the	153
the form of	151
axis of the	151
it is necessary	150
piece of work	150
as denoted by	149
the depth of	149
the crank pin	149
out of the	148
equal to the	147
are to be	147
inches in diameter	146
the pitch of	146
of the two	144
the tool is	144
there is no	144
the sides of	142
that it is	142
when it is	142
the dead centre	140
at each end	140
to receive the	140
the width of	140
of the chuck	139
of the steam	139
line of centres	138
consists of a	138
at the top	138
parallel to the	137
a and b	137
is necessary to	137
direction of the	137
the weight of	136
the teeth of	135
faces of the	135
to suit the	132
the live spindle	132
is as follows	131
of the drill	131
the bore of	131
of which is	131
due to the	131
at the other	131
it is not	130
obvious that the	130
may be set	130
which it is	129
out of true	128
pitch of the	127
the circumference of	127
construction of the	127
body of the	126
the construction of	125
weight of the	125
width of the	124
of the cut	123
and the other	122
the middle of	122
view of the	121
account of the	121
to prevent the	121
such as shown	120
according to the	120
this case the	120
at one end	120
the back of	119
means of a	119
in which a	119
at the bottom	119
of the cutting	118
be made to	118
of the hole	118
the other side	118
require to be	117
to be cut	117
one side of	117
to enable the	116
of the piston	116
what is the	116
the side of	116
it would be	115
of the bolt	115
line with the	115
it should be	114
a number of	113
there is a	113
on each side	113
edges of the	113
the body of	112
of the rod	112
true with the	111
that it may	111
to that of	111
the size of	111
from the centre	111
the height of	111
the motion of	110
with reference to	110
back of the	110
it is to	110
of the engine	109
and in the	109
bore of the	109
in proportion as	109
and at the	109
of the valve	108
the work to	108
by the dotted	108
the united states	107
requires to be	107
parts of the	107
of the plate	107
the slide rest	107
height of the	106
shown in figs	106
the action of	106
to make the	106
of the pitch	105
circumference of the	105
position of the	105
the other hand	105
the wear of	104
of teeth in	104
it is a	104
to fit the	104
the same as	104
the radius of	104
the connecting rod	103
the position of	103
that when the	103
the method of	103
size of the	103
to which the	103
point of the	102
the work table	102
the feed screw	102
as soon as	102
to set the	102
one end of	102
of the saw	102
the angle of	101
to keep the	101
to the required	101
that if the	100
upon the work	100
each side of	100
the shape of	100
the fact that	100
at the back	99
radius of the	98
that is to	98
of the screw	97
wear of the	97
the teeth are	97
the axial line	97
will be the	96
in which case	96
it is the	96
it has been	96
of the boiler	96
it consists of	96
and of the	95
by reason of	95
will be seen	95
will not be	95
a is the	95
axial line of	94
the strength of	94
the cutting edges	94
and that the	94
the work and	94
on the work	93
to hold the	92
applied to the	92
which is a	92
to have the	92
to be used	91
but if the	90
of the water	90
each end of	90
the work will	90
of the metal	90
of the pulley	90
and so on	89
as shown at	89
per square inch	89
the crank shaft	89
to cause the	89
depth of the	89
of the bar	89
the arc of	89
in the middle	88
and the work	88
shape of the	88
to the right	88
is the same	88
if it is	87
in some cases	87
in line with	87
the distance between	86
proportion as the	86
to the line	86
the aid of	85
of this kind	85
on the side	85
of the other	85
the cutting tool	84
the face plate	83
the edges of	83
as a result	83
or in other	83
the tool point	83
in place of	83
of the head	83
but it is	83
middle of the	82
be the case	82
on the end	82
be used to	82
on the same	81
of which the	81
the line a	81
of the cross	81
the tool post	80
the faces of	80
of the table	80
action of the	80
to the same	80
of a circle	80
angle of the	80
in the work	80
is required to	79
may then be	79
teeth in the	79
use of the	79
amount of the	79
the lathe centres	79
between the two	79
and as the	78
be used for	78
to find the	78
it can be	78
of the eccentric	78
the nature of	78
case of the	78
distance from the	77
is apt to	77
other end of	77
is that the	77
as may be	77
to be made	77
the tool to	76
being shown in	76
the cross head	76
be observed that	76
the pitch line	76
the engine is	76
the points of	76
they may be	76
fit to the	76
in the other	76
it must be	76
in the boiler	75
is to say	75
parallel with the	75
the cylinder bore	75
the degree of	75
and if the	75
the dotted lines	75
of the tap	75
in connection with	74
there will be	74
so that when	74
in proportion to	74
one to the	74
of the feed	74
is in the	74
of the nut	73
is shown a	73
it is better	73
at the point	73
which is the	73
for this purpose	73
that there is	72
other side of	72
point of cut	72
of cast iron	72
thus in fig	72
place of the	72
with the other	72
top and bottom	72
up to the	71
strength of the	71
of cut off	71
of the file	71
the diameters of	70
as a guide	70
the machine is	70
of the line	70
so long as	70
is driven by	70
is on the	70
as to be	70
of the lead	70
attached to the	70
as much as	69
shown by the	69
that it will	69
will be found	69
at the ends	69
the speed of	69
soon as the	69
bolted to the	69
work may be	69
to the centre	69
to take up	68
the emery wheel	68
to the axis	68
in which it	68
for the purpose	68
end of a	68
the path of	68
back and forth	68
diameters of the	68
secured to the	68
on the line	68
and on the	68
hole in the	67
half of the	67
to the face	67
distance between the	67
passing through the	67
revolutions per minute	67
depends upon the	67
be set to	67
at which the	67
should be made	67
to the amount	67
may be employed	66
of the bore	66
are as follows	66
the latter being	66
of the brass	66
in contact with	66
the dotted line	66
of the lever	66
in the following	66
as at a	66
all that is	66
the area of	66
and it will	65
than that of	65
the latter is	65
it is found	65
on which the	65
away from the	65
as is shown	65
is shown at	65
in the opposite	65
as far as	65
the cross slide	65
is at the	65
there are two	65
so that they	65
in the cut	65
what is a	64
of motion of	64
the object of	64
to receive a	64
difference between the	64
on the shaft	64
of the bed	64
to move the	64
used in the	64
so far as	64
the opposite direction	63
of the wheels	63
reason of the	63
but when the	63
of the cone	63
as the case	63
operated by the	63
holes in the	63
to some extent	63
portion of the	62
to give the	62
set to the	62
the live centre	62
it follows that	62
to the diameter	62
to bring the	62
placed on the	62
teeth of the	62
front of the	62
on the top	62
the idea of	62
the difference between	61
case may be	61
in the first	61
of the box	61
in the position	61
some of the	61
the case may	61
the top face	61
a in fig	60
nature of the	60
the centre line	60
depth of cut	60
which the work	60
that can be	60
relation to the	60
the whole of	60
a straight line	60
of the worm	59
will be observed	59
of a lathe	59
a part of	59
in one direction	59
feet per minute	59
because of the	59
placed in the	59
the crank is	59
because it is	59
of wrought iron	59
the head of	59
pressure on the	59
it is termed	58
in the cylinder	58
form of the	58
the tool will	58
of the jaws	58
the work surface	58
to be a	58
in cases where	58
in that case	58
close to the	58
part of a	58
so that if	57
we have a	57
the work may	57
an example of	57
the cutter is	57
proportion to the	57
the chuck plate	57
in this way	57
and when the	57
to drive the	57
area of the	57
adjustment of the	57
the steam engine	57
through which the	57
the friction of	56
motion to the	56
in the end	56
to the left	56
the plane of	56
so that by	56
to the lathe	56
the hand wheel	56
are provided with	56
to make a	56
of its length	56
case of a	56
must be made	56
the rate of	56
that in the	55
given to the	55
that part of	55
its adjusted position	55
of the pinion	55
cause it to	55
operated by a	55
an angle to	55
an angle of	55
in such a	55
in addition to	55
may be placed	55
the piston rod	55
centres of the	55
on to the	55
one of these	55
inch in diameter	55
the top and	55
line of motion	55
of the stroke	55
driven by a	55
to the pitch	55
the same diameter	55
the principle of	55
to adjust the	54
of the frame	54
with the line	54
to have a	54
the work in	54
be required to	54
will be in	54
the cutter head	54
it does not	54
the fit of	54
to test the	54
water in the	54
the wheel is	54
outside of the	54
of the groove	54
direction in which	54
to its cut	54
in its adjusted	53
that may be	53
the teeth on	53
a is a	53
the difference in	53
in the united	53
this may be	53
is operated by	53
take up the	53
where it is	53
that the tool	53
are shown in	53
on both sides	53
the direction in	53
fit of the	53
the velocity of	53
of the world	53
may be taken	53
be seen that	53
it in the	52
which case the	52
movement of the	52
with the work	52
long as the	52
as to the	52
is used to	52
of the wood	52
of the slide	52
the saw is	52
whole of the	52
the tops of	52
amount of power	52
and to the	52
that the work	52
if it be	52
requiring to be	52
that is necessary	52
one with the	52
the thread is	52
to cut a	52
and as a	52
it to the	52
in the wheel	52
such as in	51
and the tool	51
both sides of	51
in a direction	51
point in the	51
of the driving	51
of the spindle	51
may be turned	51
the application of	51
the employment of	51
the holes in	51
to be taken	51
of the emery	50
it is required	50
end to end	50
if the work	50
to the shaft	50
of the brasses	50
two or three	50
when the work	50
to the end	50
the position shown	50
difference in the	50
removed from the	50
the centres of	50
be in the	50
up the wear	50
and may be	50
of this class	50
of the parts	50
pass through the	50
the following table	50
level with the	50
this form of	49
is used for	49
to be turned	49
c and d	49
than the other	49
the piston is	49
the valve is	49
with the aid	49
from a to	49
of the arrow	49
various forms of	49
of the hammer	49
would not be	49
of the link	48
to the tool	48
a of the	48
of an engine	48
b of the	48
a certain amount	48
on the sides	48
from end to	48
with relation to	48
the truth of	48
the effect of	48
held in a	48
the same thing	48
it is evident	48
in the centre	48
in the form	48
in one piece	48
revolution of the	48
be applied to	48
on the face	48
tool may be	48
truth of the	48
on the outside	48
the cut is	47
of the carriage	47
to let the	47
by this means	47
the outside of	47
passes through the	47
is equal to	47
into the work	47
shown on the	47
the work by	47
to cut the	47
the pitch circles	47
determined by the	47
diameter than the	47
the cut off	47
the distance from	47
down to the	47
while the other	47
b and c	47
by the number	47
work to the	47
is capable of	47
would be the	47
of a piece	47
on the right	47
this class of	47
provided in the	47
may be moved	47
speed of the	47
as a centre	47
tops of the	47
at the pitch	47
in either direction	46
the joint faces	46
cutting edge of	46
they should be	46
and from the	46
fitted to the	46
may be operated	46
be used in	46
held in the	46
the lathe bed	46
the jaws of	46
will be a	46
the upper end	45
equal to that	45
in order that	45
of the spring	45
the generating circle	45
as will be	45
to the length	45
line on the	45
the rod end	45
of all the	45
seen that the	45
of the circle	45
well as the	45
is the case	45
with the same	45
of the length	45
work to be	44
the side faces	44
be noted that	44
so that its	44
the v s	44
may be given	44
the medium of	44
be able to	44
of the piece	44
to force the	44
let it be	44
b in fig	44
to the side	44
to a foot	44
the belt is	44
on the dead	44
should not be	44
the process of	44
the wheel to	44
through the medium	44
of cutting edge	44
may also be	44
of the most	44
reference to the	44
of the top	44
a form of	44
when the tool	44
connection with the	44
to an amount	44
piece of wood	44
enable it to	44
the front face	44
it is sometimes	44
of the iron	44
a guide to	44
head of the	43
work in the	43
the steam pressure	43
of the first	43
by the hand	43
to the cylinder	43
in front of	43
points of the	43
true to the	43
those of the	43
far as the	43
as at b	43
to be of	43
if there is	43
section of the	43
from which the	43
end view of	43
of the earth	43
up and down	43
at a time	43
between the lathe	43
inches to a	43
cutting edge is	43
will cause the	43
is evident that	43
given in the	43
the radial face	43
of the fire	42
while at the	42
to the surface	42
instead of the	42
would require to	42
used for the	42
of a tooth	42
but in the	42
the purpose of	42
when the crank	42
is termed a	42
of the atmosphere	42
of the pin	42
of the key	42
amount of clearance	42
the shaft is	42
may be done	42
and therefore the	42
on the left	42
in a straight	42
to carry the	42
of the bearing	42
the hole in	42
a portion of	42
in all cases	42
to the wheel	42
centre line of	42
of the centre	41
teeth on the	41
that they may	41
carried in a	41
is made to	41
pair of wheels	41
in either case	41
that on the	41
observed that the	41
the work axis	41
friction of the	41
iron or steel	41
it will not	41
larger than the	41
to form a	41
certain amount of	41
an end view	41
the piece of	41
caused by the	41
can be made	41
at right angles	41
the same manner	41
to meet the	41
of the steel	41
end for end	41
it is preferable	40
work will be	40
of the set	40
to the top	40
the perimeter of	40
in the tool	40
of a revolution	40
which a is	40
it is desirable	40
is called the	40
may be adjusted	40
the drill is	40
hence it is	40
by the arrow	40
of the face	40
to its seat	40
the nut is	40
to reduce the	40
which is shown	40
suppose that the	40
on the bar	40
less than the	40
taken from the	40
of the latter	40
in a line	40
to feed the	39
in gear with	39
fact that the	39
the part of	39
the teeth in	39
of larger diameter	39
and that of	39
rate of feed	39
are apt to	39
of the back	39
on the rod	39
the quantity of	39
the front end	39
c of the	39
of the live	39
in the hole	39
the absence of	39
to increase the	39
jaws of the	39
of rotation of	39
cut by the	39
the level of	39
while it is	39
the walls of	39
a matter of	39
which the tool	39
found to be	39
and it follows	39
by operating the	39
is a very	39
the centrifugal force	38
the bolt head	38
must be taken	38
the water in	38
on the wheel	38
of which are	38
and this is	38
only of the	38
we have the	38
of the driver	38
at that end	38
is better to	38
in many cases	38
to produce a	38
and the amount	38
in this manner	38
upon which the	38
in its length	38
to permit the	38
and with the	38
upon the shaft	38
point of contact	38
surfaces of the	38
the tool rest	38
of the keyway	38
of the connecting	38
upon the same	38
the lathe shears	38
the place of	38
diameter at the	38
to be operated	38
to form the	38
right and left	38
to be observed	38
on the lathe	38
it is seen	38
as shown by	38
and at a	38
be done by	38
is of the	38
the temperature of	38
to be the	38
less than that	37
into contact with	37
for the following	37
position in the	37
coefficient of friction	37
causing it to	37
from the same	37
to grip the	37
rotation of the	37
be made of	37
and in this	37
of the joint	37
instead of a	37
of the ordinary	37
it is in	37
of the journal	37
the same amount	37
is that of	37
seen in the	37
the spindle is	37
of the hand	37
marked on the	37
fastened to the	37
are made of	37
line a a	37
at a and	37
and there is	37
contact of the	37
to the rod	37
the finishing cut	37
of the body	37
the lower end	37
at the centre	37
corresponding to the	37
being as follows	37
that if a	36
one in which	36
driven by the	36
united states standard	36
explained with reference	36
pratt and whitney	36
a series of	36
the lathe is	36
the tool may	36
this is a	36
for the same	36
to one side	36
to the cutting	36
of such a	36
application of the	36
the cone spindle	36
the flanks of	36
to the bottom	36
as to give	36
passed through the	36
means of which	36
from the pressure	36
the work as	36
of the way	36
is not the	36
to be moved	36
coincident with the	36
be of the	36
a full thread	36
of the square	36
it and the	36
the end view	36
that in fig	36
the case with	36
the table is	36
of the cam	35
the inside of	35
can be used	35
the time of	35
to the radius	35
is held in	35
cutting edges of	35
put on the	35
fast upon the	35
is necessary that	35
it from the	35
in both cases	35
threads per inch	35
the steam is	35
to turn the	35
each of the	35
out of line	35
or from the	35
of the mandrel	35
referring to the	35
the eccentric rod	35
of a wheel	35
found that the	35
of the v	35
from b to	35
apart of the	35
the front of	35
as they are	35
the drill spindle	35
a great deal	35
is at a	35
centre of motion	35
from the work	35
it is also	35
it to be	35
the work at	35
which can be	35
to each other	35
shown at a	35
by which the	35
with the axis	35
the end face	35
the cylinder cover	35
of the strap	35
more or less	35
a represents the	35
cut in the	35
level of the	35
to the cut	35
required to be	35
of the upper	35
to enable it	34
temperature of the	34
to permit of	34
of the air	34
grain of the	34
sectional view of	34
the boiler is	34
of the circumference	34
may be obtained	34
that as the	34
a to b	34
of the main	34
from the point	34
position shown in	34
to pass through	34
the capacity of	34
from which it	34
is not a	34
scale inches to	34
could not be	34
variation in the	34
the same direction	34
of the pattern	34
to the table	34
the work being	34
the other is	34
be apt to	34
angles of the	34
the shaft and	34
the following reasons	34
walls of the	34
of the surface	34
lines of division	34
the greater the	34
of the generating	34
d and e	34
opposite to the	34
st and nd	34
as long as	34
a distance of	34
one of which	34
contact between the	34
being at a	34
much as possible	34
down upon the	33
or if the	33
of the rim	33
the manufacture of	33
mark on the	33
be placed in	33
which must be	33
a device for	33
the force of	33
the advantage of	33
by the screw	33
of the rest	33
fitting into the	33
which will be	33
a length of	33
of the oil	33
the steam chest	33
as the diameter	33
in the length	33
on the back	33
a pressure of	33
a result the	33
the jaws are	33
the parts of	33
when the piston	33
inside of the	33
of the weight	33
of the sleeve	33
its cutting edge	33
of large diameter	33
act as a	33
be the same	33
while in the	33
it be required	33
but in this	33
view of a	33
there may be	33
instead of being	33
the romance of	33
in diameter and	33
the introduction of	33
capacity of the	33
number of revolutions	33
pitch circle of	33
the surfaces of	33
to mark the	33
represented by the	33
when the engine	33
and having a	33
the location of	33
of a pair	33
to take a	33
is secured to	33
should be used	33
to use a	32
the hot well	32
end of this	32
direction of motion	32
to be in	32
that we have	32
it is at	32
against the face	32
b is the	32
be put on	32
the thread on	32
the fire box	32
there would be	32
in each case	32
and the same	32
to the upper	32
and has a	32
the set screw	32
motion from the	32
to the chuck	32
supposed to be	32
that of a	32
the angles of	32
clear of the	32
of the end	32
from the line	32
at the head	32
be operated upon	32
to remove the	32
of the pump	32
flanks of the	32
of the pipe	32
the work the	32
the bolt is	32
of the holder	32
the thread in	32
is set to	32
the adjustment of	32
on that side	32
of the furnace	32
as at c	32
upper end of	32
of the flange	32
in the steam	32
the cone pulley	32
how would you	32
end of which	32
the outer end	32
the two halves	32
follows that the	32
which represents a	32
is the most	32
the lengths of	32
and the latter	32
the lines of	31
the small end	31
use of a	31
to obtain the	31
thread in the	31
that the amount	31
the tail spindle	31
fair with the	31
and for the	31
as near as	31
a set screw	31
it is usual	31
three or four	31
made in the	31
it is used	31
in the side	31
brown and sharpe	31
this is the	31
the distance of	31
and the two	31
the less the	31
and a half	31
of the gauge	31
to be set	31
addition to the	31
to which it	31
of the chisel	31
to be done	31
d is a	31
may be held	31
and the feed	31
the necessity of	31
to the crank	31
not more than	31
is attached to	31
precisely the same	31
is carried in	31
capable of being	31
thread on the	31
number of the	31
is supposed to	31
power of the	31
in the usual	31
of the blade	31
face of a	31
a temperature of	31
is seen that	31
that it shall	31
more than the	31
up to a	31
we may now	31
pitch line of	31
the cross feed	31
of the threads	31
of the tube	31
the thread to	31
the alignment of	31
by the distance	31
in the engraving	31
of the diameter	31
any of the	31
arc of a	31
is out of	31
now suppose that	31
for the first	31
cut on the	31
a kind of	31
out from the	31
the arc pitch	31
the manner of	31
and the end	31
of the die	31
with the centre	31
the power of	31
the hole to	31
to make it	31
the course of	31
the shaft of	30
parts of an	30
in and out	30
the bores of	30
such as to	30
the pratt and	30
piece of steel	30
of the required	30
the slide valve	30
the same shaft	30
it is an	30
what are the	30
the american machinist	30
the lathe and	30
the work of	30
with which the	30
error in the	30
great deal of	30
should be as	30
reference to fig	30
of the lower	30
so that a	30
same as that	30
be on the	30
have to be	30
if the tool	30
the pressure on	30
cases where the	30
the operation of	30
in the second	30
distance of the	30
that the teeth	30
path of the	30
machine in which	30
the lathe centre	30
upon the face	30
is to have	30
by the following	30
the construction being	30
is known as	30
it is best	30
at a in	30
can be moved	30
shown in section	30
may be put	30
on the crank	30
the pulley is	30
may not be	30
that shown in	30
of the rivet	30
it being obvious	30
pressure in the	30
plane of the	30
can only be	30
held to the	30
causes it to	30
by the set	30
side of a	30
e and f	30
the advantages of	30
is found to	30
which has a	30
to the shape	30
placed upon the	30
moved to the	30
is not so	30
the two ends	30
principle of the	30
that has been	30
as there are	30
the full length	30
of the diagram	30
to one of	30
corners of the	30
one of them	29
greater than the	29
is bolted to	29
through the work	29
at the time	29
connected to the	29
the driving pulley	29
increase in the	29
the other half	29
to admit the	29
more than one	29
placed between the	29
surface of a	29
radial face of	29
the distance apart	29
may be cut	29
given amount of	29
as the tool	29
full length of	29
being obvious that	29
from c to	29
point on the	29
it is essential	29
a machine for	29
speed at which	29
f is a	29
up in the	29
to give a	29
of the dead	29
of a steam	29
be moved to	29
be obtained by	29
and we may	29
may be found	29
should always be	29
to the axial	29
is made of	29
gear with the	29
in the head	29
its own weight	29
the grain of	29
to the drill	29
shown at the	29
s is a	29
the contact of	29
of the pulleys	29
a connecting rod	29
is the one	29
line of shafting	29
should then be	29
is applied to	29
and b the	29
a section of	29
as a rule	29
to be ground	29
velocity of the	29
to the proper	29
used by the	29
distance apart of	29
the dies are	29
the change wheels	29
greater than that	29
the work from	29
for operating the	29
the heads of	29
described with reference	29
c is the	28
teeth may be	28
nearer to the	28
is placed in	28
is employed to	28
used to cut	28
being on the	28
work and the	28
by a screw	28
of the roll	28
to the direction	28
upon the other	28
steam to the	28
piece of iron	28
and the wheel	28
is pivoted at	28
there is an	28
applied to a	28
the two wheels	28
inch per foot	28
even with the	28
back to the	28
to the body	28
is one in	28
is difficult to	28
than at the	28
the upper part	28
in the box	28
which should be	28
to the cross	28
and hence the	28
the presence of	28
which drives the	28
that it can	28
by the line	28
serve as a	28
arc of contact	28
speed of rotation	28
and is provided	28
need not be	28
of small diameter	28
along the work	28
length of belt	28
on the opposite	28
as to have	28
the lathe to	28
to be bored	28
the line c	28
will be at	28
to take the	28
the line b	28
a given amount	28
the movement of	28
c is a	28
in the slide	28
in a given	28
the form shown	28
the wheel and	28
moved along the	28
they can be	28
through the centre	28
the transmission of	28
line a b	28
and out of	28
but this is	28
especially if the	28
wrought iron or	28
the chuck is	28
is held by	28
will be equal	28
the tap is	28
to the steam	28
of a screw	28
the back gear	28
for lathe work	28
with which it	28
lower end of	28
that the pressure	27
the crank end	27
after it has	27
is made in	27
against the end	27
provided with an	27
used as a	27
be equal to	27
than the diameter	27
on the pitch	27
which is fast	27
prevent it from	27
in the world	27
so soon as	27
was shown in	27
two or more	27
of a given	27
of contact of	27
in the absence	27
and the length	27
work is to	27
from the end	27
be held in	27
a and the	27
arc of approach	27
obvious that if	27
to be very	27
b in the	27
do is to	27
obvious that in	27
as that of	27
the head end	27
the return stroke	27
raised or lowered	27
pair of compasses	27
is represented a	27
fed to the	27
is composed of	27
with that of	27
journal bearing to	27
which is provided	27
be out of	27
the feed motion	27
manner in which	27
is a piece	27
what is termed	27
a circle of	27
are of the	27
the hole is	27
providing that the	27
be fitted to	27
will be of	27
circle of the	27
the hub of	27
for the two	27
of the slot	27
the air pump	27
from the boiler	27
location of the	27
to regulate the	27
to a certain	27
are used in	27
middle of its	27
of the second	27
are used for	27
a wheel having	27
are used to	27
and the distance	27
be given to	27
is necessary in	27
the opposite side	27
because in that	27
in the ordinary	27
right angles to	27
it is difficult	27
on the front	27
the same way	27
under the head	26
part of an	26
a sectional view	26
the base circle	26
as to leave	26
in any event	26
have been made	26
in the shaft	26
nearest to the	26
by a set	26
a speed of	26
the object being	26
the kind of	26
which they are	26
of the bottom	26
to do is	26
and then the	26
be adjusted to	26
to the point	26
strain due to	26
in the chuck	26
the steam to	26
in advance of	26
steam from the	26
journal bearing in	26
in the two	26
front end of	26
and all the	26
into the cylinder	26
amount equal to	26
an arc of	26
form of a	26
water from the	26
one end and	26
be taken to	26
order that the	26
the tool in	26
the wheels are	26
position by the	26
and represent a	26
to insure that	26
feet in diameter	26
smaller than the	26
is in a	26
as not to	26
the steam port	26
be operated by	26
the base of	26
of the taper	26
made on the	26
be set at	26
of the great	26
arc of recess	26
placed at the	26
that they will	26
when the two	26
the drill to	26
and we have	26
d is the	26
in setting the	26
a train of	26
of an ordinary	26
that they are	26
of the chaser	26
of the hub	26
of its stroke	26
to act as	26
the requirements of	26
when they are	26
in a machine	26
the gauge glass	26
be used as	26
in the table	26
or of the	26
is given in	26
from the steam	26
wheel to be	26
that the two	26
the tool and	26
the low pressure	26
be necessary to	26
case it is	26
is necessary is	26
out of gear	26
the cylinder and	26
necessary that the	26
of the plane	26
of the holes	26
the safety valve	26
of the blow	26
the planer table	26
be capable of	26
multiplied by the	26
to the boiler	26
between the jaws	26
far as possible	26
necessary is to	26
such as the	26
added to the	26
the back end	26
the bar is	26
from the american	26
of the base	26
for the work	26
is represented by	26
would be a	26
which it will	26
which has been	25
is denoted by	25
an amount equal	25
will be less	25
all parts of	25
of lead screw	25
the other the	25
any part of	25
the smallest wheel	25
of the straight	25
direction of rotation	25
d of the	25
in the use	25
in mind that	25
in the way	25
is due to	25
this is not	25
is desirable to	25
of the tailstock	25
the same angle	25
from the chuck	25
is sufficient to	25
to enter the	25
will be true	25
the whole length	25
b is a	25
a distance equal	25
found in the	25
necessary for the	25
we have now	25
by the use	25
the latter will	25
of the large	25
of a boiler	25
that the cutting	25
the effects of	25
the advantage that	25
alignment of the	25
the passage of	25
to put on	25
of the power	25
of the pressure	25
to maintain the	25
of the cover	25
and b b	25
after the manner	25
the lower one	25
by the same	25
is less than	25
the usual manner	25
it is of	25
the link motion	25
if it were	25
the upper surface	25
the thread of	25
the feed is	25
tension of the	25
form shown in	25
miles an hour	25
stroke of the	25
is done by	25
work on the	25
may be removed	25
as it will	25
in a lathe	25
to the edge	25
is fast upon	25
larger in diameter	25
is termed the	25
between the centres	25
of the stone	25
in their places	25
the history of	25
amount of this	25
that in this	25
to make them	25
of this is	25
object is to	25
should be placed	25
force of the	25
in the fire	25
it appears that	25
the production of	25
of the shears	25
is taken from	25
as at d	25
not to be	25
serves as a	25
object being to	25
to avoid the	25
the fixed jaw	25
the required diameter	25
for wrought iron	25
the water is	25
to show the	25
made by the	25
crank is on	25
those on the	25
to obtain a	25
and also the	25
it is very	24
end of its	24
that all the	24
out in the	24
the parts are	24
to the square	24
bed of the	24
quantity of water	24
by placing the	24
than it is	24
so arranged that	24
diameter of a	24
be in a	24
and the point	24
is intended to	24
the electric current	24
be used on	24
to twice the	24
not the case	24
or it may	24
position on the	24
fixed to the	24
may be seen	24
to the feed	24
depend upon the	24
tool shown in	24
one on each	24
the process is	24
and the face	24
at a temperature	24
a direction to	24
be made in	24
for the teeth	24
in the former	24
with a given	24
which consists of	24
on the lead	24
inches rd th	24
in diameter to	24
the piece is	24
is determined by	24
to be found	24
it was found	24
are in the	24
it will have	24
the lathe carriage	24
iron and steel	24
be taken off	24
at any point	24
of the reamer	24
connected with the	24
the feed nut	24
inserted in the	24
pulley on the	24
as in figs	24
into which the	24
the key is	24
the axes of	24
the manner in	24
a slide rest	24
outer end of	24
known as the	24
of the dies	24
and the diameter	24
a b c	24
the guide bars	24
of the vertical	24
as it were	24
length of cutting	24
the arrangement of	24
the lathe spindle	24
for the face	24
evident that the	24
same amount of	24
the cutting tools	24
points of division	24
bearing in the	24
a flat place	24
to any required	24
must be set	24
cut a thread	24
care must be	24
a means of	24
the means of	24
part of its	24
the amount the	24
whole length of	24
the same in	24
to place the	24
the bed of	24
between it and	24
will be more	24
from the other	24
with a square	24
the swing frame	24
the tension of	24
this part of	24
to its proper	24
compasses to the	24
the most important	24
place on the	24
to be tested	24
by making the	24
from the lathe	24
it is possible	24
to its place	24
at the proper	24
distance equal to	24
direction of arrow	24
the operation is	23
the amount to	23
of the small	23
the heat of	23
it is desired	23
acts as a	23
travel of the	23
in the vice	23
it is made	23
be liable to	23
of a machine	23
of the driven	23
the stem of	23
is greater than	23
it is clear	23
in the furnace	23
be employed to	23
with the face	23
having journal bearing	23
the hole and	23
corresponds to the	23
to allow the	23
the same purpose	23
on the bottom	23
may be varied	23
be put in	23
for use in	23
in this respect	23
objection to this	23
edge of a	23
a radial line	23
base of the	23
the driven wheel	23
the carriage is	23
of the shafts	23
in determining the	23
axially true with	23
of the form	23
is liable to	23
friction between the	23
which the steam	23
cut to the	23
than would be	23
the beginning of	23
in the nut	23
and one of	23
the joint face	23
the feed water	23
other end is	23
as to prevent	23
the development of	23
of the material	23
to have been	23
position in which	23
to operate the	23
construction being as	23
owing to the	23
the work centre	23
this method of	23
to provide a	23
is shown by	23
at the root	23
has to be	23
wheel may be	23
lengths of the	23
those in which	23
set the work	23
power required to	23
the speed at	23
of the wear	23
is such that	23
stem of the	23
which is necessary	23
thrown out of	23
top face of	23
is put on	23
the objection to	23
may be applied	23
for brass work	23
on the surface	23
the tooth curves	23
the corners of	23
be cut off	23
the head is	23
in position to	23
the time the	23
as it may	23
to the position	23
should also be	23
the other by	23
which is not	23
the work be	23
the range of	23
to be at	23
of the column	23
on the cross	23
is said to	23
be at the	23
turned in the	23
different diameters of	23
a line with	23
the metal is	23
to the lines	23
corner of the	23
on which it	23
should be done	23
this means the	23
up by the	23
with the tool	23
be made as	23
is made by	23
that end of	23
an equal distance	23
if they are	23
is best to	23
of work that	23
which is done	23
for driving the	23
to an equal	23
parts of a	23
steam in the	23
as was shown	23
to the fact	23
of the template	23
may be more	23
bolts and nuts	23
one piece with	23
the same size	23
degrees of angle	23
of the electric	23
the teeth may	23
same manner as	23
on the upper	23
or in the	23
which is pivoted	23
the right hand	23
there are three	23
the side face	23
of the collar	23
to leave the	23
to be held	23
metal to be	22
the eccentric is	22
to the live	22
in the top	22
obvious that when	22
cut from the	22
path of contact	22
the value of	22
against which the	22
as would be	22
the case if	22
and the nut	22
the metal of	22
will move the	22
to produce the	22
they are made	22
be turned to	22
at its end	22
we find that	22
pitch of lead	22
low pressure cylinder	22
the dotted circle	22
set at an	22
coincide with the	22
left to right	22
that at the	22
end in the	22
that in a	22
that it has	22
to run true	22
a set of	22
will give the	22
a cutting tool	22
should be of	22
and b a	22
space between the	22
with the axial	22
the piston stroke	22
the teeth will	22
number of pieces	22
as nearly as	22
a mixture of	22
than in the	22
of the guide	22
it to cut	22
of the instrument	22
as to cause	22
is the centre	22
grip the work	22
of the following	22
to the bed	22
may be of	22
for the steam	22
in the strap	22
of the three	22
at every point	22
true in the	22
it on the	22
is used in	22
thread of the	22
the crank on	22
such a way	22
in the diameter	22
is a great	22
as the work	22
has been made	22
be placed on	22
the rest of	22
having the same	22
at a a	22
with the edge	22
is to make	22
as we have	22
will be as	22
of the respective	22
to accomplish this	22
with the live	22
employed in the	22
is an excellent	22
to a great	22
being shown at	22
the same plane	22
the removal of	22
be made by	22
fitted with a	22
is sometimes termed	22
in the latter	22
as true as	22
for all the	22
adjusted position by	22
the automatic feed	22
to reverse the	22
of the shell	22
the work should	22
of the bearings	22
be taken up	22
hole to be	22
there being a	22
insure that the	22
of a single	22
is desired to	22
per inch of	22
under these conditions	22
to secure the	22
riveted lap joint	22
it is only	22
by moving the	22
from left to	22
the rod is	22
to put the	22
the bolt holes	22
as to bring	22
and the crank	22
and should be	22
stand at a	22
proportion of the	22
upon the bolt	22
is usual to	22
a few years	22
to the slide	22
the pressure is	22
the brasses are	22
such that the	22
of the ring	22
larger diameter than	22
the work must	22
one half of	22
the live steam	22
will be shown	22
most of the	22
be remarked that	22
be found that	22
and in fig	22
of the handle	22
along the bed	22
in the bore	22
in which there	22
for this reason	22
is screwed up	22
the holes are	22
may be raised	22
as to enable	22
and a second	21
the coefficient of	21
in the machine	21
should be so	21
of the gib	21
worm and worm	21
the proportion of	21
held by the	21
being in the	21
of the screws	21
method is to	21
as fast as	21
in the slot	21
as applied to	21
for a distance	21
the side view	21
the boring bar	21
the same pitch	21
a very fine	21
the angle plate	21
may be so	21
by multiplying the	21
arrangement of the	21
heated to redness	21
the difficulty of	21
that case the	21
it is more	21
in diameter than	21
open to the	21
between these two	21
by the handle	21
it will cut	21
on the cone	21
of the stock	21
must be used	21
romance of modern	21
is obtained by	21
in which is	21
be provided with	21
there is the	21
the strap is	21
the carriage and	21
root of the	21
what is known	21
the age of	21
the piston to	21
so as not	21
in the plan	21
of the various	21
what may be	21
truth in the	21
this is shown	21
suitable for the	21
the proper distance	21
it cannot be	21
from the axis	21
is that in	21
work that is	21
each of these	21
the wheel rim	21
made to the	21
the horizontal line	21
from the cylinder	21
the case when	21
removal of the	21
example of the	21
to the engine	21
the boiler to	21
of the man	21
the sliding head	21
to avoid this	21
in this example	21
the required distance	21
has journal bearing	21
a wheel of	21
be at a	21
be less than	21
to relieve the	21
to spring or	21
for a given	21
the cost of	21
as can be	21
will be necessary	21
in the construction	21
this is done	21
in which s	21
are given in	21
and by the	21
the invention of	21
consists of two	21
the tool has	21
in its place	21
are made in	21
opposite side of	21
of the united	21
the appearance of	21
the strain of	21
the left hand	21
or to the	21
by turning the	21
place in the	21
a method of	21
slot in the	21
we have to	21
which carries the	21
of the pieces	21
of a marine	21
the thread cut	21
the revolutions of	21
of the front	21
the efficiency of	21
consisting of a	21
in the lower	21
to be marked	21
in full gear	21
which it was	21
be used upon	21
large enough to	21
so that there	21
to the carriage	21
or by a	21
which are the	21
to the pressure	21
line of lathe	21
just touch the	21
to hold them	21
tool in the	21
to allow for	21
on this account	21
are made to	21
upper part of	21
at the sides	21
an equal degree	21
it is shown	21
the high pressure	21
to the lower	21
at the first	21
pivoted to the	21
and b are	21
should be taken	21
live spindle is	21
is found in	21
on the feed	21
of lathe centres	21
and the upper	21
it has a	21
may be remarked	21
to do so	21
of the curve	21
passage of the	21
to determine the	21
the spindle and	21
one revolution of	21
side faces of	21
of a small	21
joint faces of	21
of the surfaces	21
a tooth on	21
in the course	21
the movable jaw	21
to lock the	21
of the bolts	21
to throw the	21
the screw is	21
is preferable to	21
carried by the	21
to steady the	21
to close the	21
to lift the	21
made of cast	21
recess in the	21
the full diameter	21
at an equal	20
in the mould	20
as is the	20
either of the	20
the steam hammer	20
side by side	20
independent of the	20
on the inside	20
and the top	20
which is secured	20
the condition of	20
with a view	20
bottoms of the	20
of equal diameter	20
the brass is	20
terms of the	20
and in a	20
the loose pulley	20
as to avoid	20
to see that	20
revolutions of the	20
contraction of the	20
be such as	20
the piston and	20
the same proportion	20
and the screw	20
the feed motions	20
is the amount	20
and the piston	20
the rim of	20
elevation of the	20
of one wheel	20
it is well	20
same time the	20
the diameter at	20
thread to be	20
and if we	20
on the table	20
firmly against the	20
b to the	20
to the thickness	20
of the lines	20
at the crank	20
wheel having teeth	20
governed by the	20
is fastened to	20
to cut off	20
with the crank	20
the radial faces	20
to turn a	20
are employed to	20
the upper wheel	20
is a good	20
may be termed	20
we shall find	20
the bearing marks	20
may be tested	20
the rod r	20
as to form	20
to the machine	20
in the number	20
may be swung	20
when the nut	20
aid of the	20
and with a	20
of the plates	20
has been found	20
when the teeth	20
to strike the	20
and this will	20
the cutters are	20
in a few	20
the same number	20
work should be	20
of the motor	20
the other of	20
the holes for	20
teeth in contact	20
as an example	20
at any time	20
secured by a	20
in the upper	20
may be required	20
and also to	20
a short distance	20
the object is	20
the accuracy of	20