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	1644
end of the	1619
so as to	1025
by means of	1006
the end of	947
part of the	908
side of the	893
of the work	890
so that the	854
as shown in	794
of the steam	785
the amount of	772
the diameter of	727
diameter of the	723
as in fig	689
in which the	689
of the cylinder	682
it will be	678
of the boiler	677
the length of	676
of the engine	675
the use of	622
it may be	619
one of the	604
is shown in	590
the top of	590
is to be	587
length of the	574
that of the	570
the number of	565
the centre of	561
of the piston	558
in order to	555
face of the	542
top of the	534
in the case	516
and it is	514
at the same	508
the case of	499
a piece of	494
the bottom of	490
bottom of the	473
of the tool	471
the direction of	463
on the other	459
in this case	455
as well as	449
the pressure of	447
in the same	447
centre of the	441
of the same	425
surface of the	421
it is obvious	421
the face of	416
pressure of the	413
the same time	411
of the water	406
sides of the	400
of the wheel	395
the work is	388
the line of	384
of an inch	379
in the boiler	376
shown in the	372
as in the	365
per square inch	355
the point of	354
inches in diameter	353
edge of the	350
of the crank	346
of the teeth	344
is obvious that	341
of the machine	339
it is not	335
out of the	325
the weight of	324
as it is	321
the surface of	320
the form of	319
what is the	318
the action of	316
means of a	315
due to the	315
ends of the	314
it is necessary	312
in the direction	308
the ends of	307
so that it	306
of the lathe	305
there is no	304
motion of the	303
of the valve	301
the engine is	301
that it is	300
attached to the	298
which it is	295
at the end	294
means of the	290
is necessary to	287
the cutting edge	284
contact with the	284
in the figure	282
to the work	282
there is a	280
position of the	279
the temperature of	277
action of the	277
the thickness of	276
of the thread	275
water in the	274
may be used	274
a right angle	272
the size of	272
of which is	272
the same as	270
at the top	269
a number of	269
equal to the	268
it would be	267
in the lathe	266
parts of the	265
the tool is	264
of the shaft	264
may be made	262
in other words	259
and in the	256
provided with a	254
the construction of	253
it should be	253
number of teeth	251
the position of	249
to prevent the	248
is provided with	248
which may be	247
weight of the	247
for the purpose	245
at the bottom	244
the other end	243
when it is	241
at a right	241
of the screw	239
it has been	238
of the two	237
the sides of	235
the axis of	234
the side of	234
angle to the	234
the edge of	234
of the stroke	233
size of the	233
are to be	233
the united states	232
according to the	232
temperature of the	231
thickness of the	230
of the fire	227
of the chuck	227
and the other	226
a pair of	226
the quantity of	225
the method of	225
to the other	223
on one side	222
the depth of	220
the speed of	220
the purpose of	217
on account of	217
right angle to	216
the power of	216
some of the	216
line of the	214
will not be	214
at an angle	214
the nature of	213
the slide rest	212
direction of the	211
portion of the	210
movement of the	207
consists of a	207
to make the	206
it is a	204
in the cylinder	203
and at the	202
will be the	202
axis of the	201
the other hand	200
the motion of	200
and that the	199
and of the	199
the crank pin	198
will be seen	197
the fact that	197
of which the	196
to which the	196
construction of the	196
from the boiler	195
use of the	195
in some cases	195
the water in	194
at each end	194
but it is	194
power of the	194
a and b	192
back of the	191
of an engine	191
to receive the	190
the height of	190
point of the	190
the area of	190
on each side	189
it is the	188
which is the	187
at one end	186
be made to	186
the back of	186
of the air	185
one side of	183
the pitch of	182
body of the	181
the boiler is	181
the connecting rod	181
in contact with	181
will be found	180
the other side	180
in this way	180
to be cut	179
denoted by the	179
of the cutter	179
account of the	178
up to the	178
speed of the	178
the pitch circle	178
miles an hour	178
the boiler was	177
to keep the	177
to enable the	176
is as follows	176
of the belt	176
area of the	175
the piston is	175
piece of work	174
the width of	173
it can be	173
which is a	173
of the cut	172
it must be	172
applied to the	172
the crank shaft	172
to that of	172
parallel to the	171
in which a	171
to be used	171
to the right	170
view of the	169
the middle of	169
should be made	169
is in the	169
height of the	169
this case the	169
is the same	169
it is to	168
the lead screw	168
in addition to	167
the rate of	166
at the other	166
the latter is	165
the circumference of	165
of the tooth	165
the steam is	165
pressure on the	164
the operation of	164
in the first	162
from the centre	161
used in the	161
in the steam	161
the velocity of	160
it is evident	160
front of the	159
the teeth of	158
the body of	158
shown in figs	158
the shape of	158
faces of the	157
one end of	157
as soon as	157
should not be	156
that when the	156
in connection with	156
nature of the	156
as to be	156
on the same	156
and if the	156
between the two	155
pitch of the	155
by the dotted	155
there will be	155
be used for	155
steam from the	155
of the rod	155
for this purpose	155
to suit the	155
the application of	154
of the hole	153
of the atmosphere	153
of the other	153
if it is	152
width of the	152
that there is	152
to the required	152
of the tube	152
may be set	151
a is the	151
and as the	151
the strength of	151
shown by the	151
the piston rod	150
line with the	150
at the back	150
each side of	150
to fit the	149
as denoted by	149
of the cutting	149
outside of the	148
require to be	148
that it may	148
at right angles	147
so far as	146
that it will	146
the effect of	146
the work to	145
edges of the	145
through which the	145
of the eccentric	144
of cast iron	144
of the slide	144
of this kind	144
the bore of	142
at which the	142
the whole of	142
depth of the	142
line of centres	142
is evident that	142
of the drill	142
on which the	142
pounds per square	141
placed in the	141
the dead centre	140
to hold the	140
to have the	140
to the boiler	140
to be made	140
steam in the	140
placed on the	139
as to the	139
requires to be	138
to the same	138
when the engine	138
in the form	137
of the most	137
but if the	137
they may be	136
a pressure of	136
the cross head	136
by which the	136
obvious that the	135
passing through the	135
circumference of the	135
the outside of	135
in the middle	135
as shown at	135
to make a	134
found to be	134
distance from the	133
to have been	133
with reference to	133
as far as	132
of the first	132
at the ends	132
than that of	132
of the plate	132
quantity of water	132
the live spindle	132
one of these	131
out of true	131
more or less	130
hole in the	130
each end of	129
of the feed	129
to be the	129
the angle of	129
revolutions per minute	128
to find the	128
the work and	127
in such a	127
in which it	127
that is to	127
and so on	127
to be turned	127
there are two	126
in place of	126
in order that	126
on the side	126
the air pump	126
of the metal	126
be used to	126
shape of the	125
and on the	124
is used for	124
on the top	124
by reason of	124
operation of the	123
of the cross	123
be able to	123
of the latter	123
in the other	123
to set the	123
to give the	123
to the inch	123
to the cylinder	123
the production of	122
is required to	122
of the bar	122
of the wheels	122
at the point	122
by the use	122
the difference between	122
in the united	122
connected with the	121
which has been	121
the latter being	121
a part of	121
passes through the	121
given to the	121
the cost of	121
in which case	121
the water is	120
a series of	120
the proportion of	120
the wear of	120
such as shown	120
bore of the	119
middle of the	119
of the saw	119
the valve is	119
feet per minute	119
to cause the	119
the introduction of	119
of the bolt	119
end of a	118
of water in	118
that if the	118
the cause of	118
and the work	117
be seen that	117
true with the	117
wear of the	117
the level of	117
in the following	117
this is a	117
this is the	117
because of the	117
of a boiler	117
the radius of	116
the distance between	116
that in the	116
the object of	116
the dotted lines	116
the work of	116
whole of the	116
velocity of the	116
the degree of	116
on the end	116
of the furnace	116
the atmospheric pressure	115
of teeth in	115
as much as	115
level of the	115
strength of the	115
top and bottom	115
to the left	115
to be a	115
with the same	115
stroke of the	115
amount of the	115
and when the	115
to have a	115
and it will	114
so that when	114
radius of the	114
half of the	113
is shown at	113
the work will	113
of the vessel	113
application of the	113
to the top	113
place of the	113
the head of	113
of the pitch	113
of the pulley	113
the lower end	112
which can be	112
to the end	112
proportion as the	112
it consists of	111
form of the	111
the cutting edges	111
revolution of the	111
per pound of	111
in line with	111
in proportion to	110
use of a	110
the front end	110
end to end	110
the top and	110
the result of	110
the force of	110
on the work	109
be the case	109
force of the	109
this may be	109
close to the	109
the steam engine	109
case of the	109
in the position	109
should be used	109
is equal to	109
a portion of	108
from end to	108
or in other	108
upon the work	108
made in the	107
the work table	107
that may be	107
will be a	107
it is better	107
steam to the	107
the machine is	107
as may be	107
to form a	107
be in the	106
the upper end	106
is attached to	106
difference between the	106
in proportion as	106
of the main	106
that can be	106
as a result	106
pressure of steam	105
when the piston	105
the friction of	105
of the heat	105
of the link	105
to the bottom	105
the cylinder is	104
on the piston	104
of the fuel	104
so that they	104
secured to the	104
the axial line	104
other end of	104
to bring the	104
it will not	103
the feed screw	103
the edges of	103
be necessary to	103
the safety valve	103
babcock wilcox boilers	103
would be the	103
and a half	103
the necessity of	103
angle of the	103
back and forth	103
where it is	102
at the time	102
which will be	102
threads per inch	102
relation to the	102
of the pipe	102
is capable of	102
the steam in	102
other side of	101
to the lathe	101
motion to the	101
is of the	101
depends upon the	101
of a circle	101
have to be	101
bolted to the	101
the points of	101
the time of	101
it to the	101
the lathe bed	101
the teeth are	101
the movement of	100
of wrought iron	100
on the outside	100
have been made	100
it follows that	100
on the shaft	100
of a steam	100
of the pump	100
parallel with the	99
well as the	99
it does not	99
is at the	99
to the line	99
is called the	99
holes in the	99
of the tubes	99
sewing machine co	99
the tool to	98
to the centre	98
the faces of	98
to the amount	98
be observed that	98
water from the	98
it is found	98
caused by the	98
the boiler to	98
of the head	98
that part of	98
section of the	98
in the opposite	98
adjustment of the	98
in the centre	98
of the cone	97
the principle of	97
the front of	97
of the lever	97
pressure in the	97
reference to the	97
in the work	97
soon as the	97
what are the	97
connected to the	97
to move the	97
it in the	97
case of a	96
the tool will	96
is that the	96
held in the	96
may then be	96
of the gas	96
axial line of	96
the face plate	96
from which the	96
of the parts	96
be taken to	96
should be taken	96
and to the	96
found that the	95
weight of engine	95
away from the	95
the arc of	95
of the line	95
the tool point	95
as shown by	95
to the steam	95
any of the	95
is used to	95
and the steam	95
of the beam	94
owing to the	94
must be taken	94
lower end of	94
of the rim	94
can be used	94
is made to	94
it is in	94
all that is	93
the boiler and	93
of all the	93
to the engine	93
the supply of	93
right angles to	93
the same manner	93
this class of	93
of the table	92
and from the	92
is on the	92
exposed to the	92
the cutting tool	92
inch in diameter	92
to be taken	92
the difference in	92
one to the	92
the pressure on	92
distance between the	92
the steam to	92
in front of	92
point of cut	92
the value of	91
the line a	91
which should be	91
work may be	91
it is only	91
is driven by	91
of such a	91
the part of	91
be done by	91
pass through the	91
and may be	91
of the frame	91
of the spindle	91
the opposite direction	91
seen that the	90
to reduce the	90
may be taken	90
this form of	90
to take up	90
on the line	90
and the tool	90
connection with the	90
known as the	90
head of the	89
by the engine	89
be applied to	89
which they are	89
and with the	89
instead of the	89
to determine the	89
root of the	89
should be done	89
the brake pipe	89
the efficiency of	89
determined by the	89
the center of	88
driven by a	88
of which are	88
in diameter and	88
of the box	88
the advantage of	88
is known as	88
which the steam	88
feet in diameter	88
are provided with	88
is held in	88
the steam pressure	88
of this class	88
at the rate	88
upper end of	88
number of revolutions	88
in one direction	87
as at a	87
may be done	87
the heat of	87
teeth in the	87
the path of	87
of the present	87
the dotted line	87
to increase the	87
proportion to the	87
be set to	87
with the other	87
with which the	86
of the connecting	86
the cylinder and	86
are shown in	86
is to say	86
is placed in	86
an angle of	86
those of the	86
they should be	86
per cent of	86
multiplied by the	86
can be made	86
to be done	86
with the work	85
is the case	85
of the pressure	85
down to the	85
held in a	85
the work in	85
capacity of the	85
seen in the	85
would not be	85
part of a	85
inside of the	85
of the driving	85
to the face	85
in that case	85
of the brass	85
be used in	85
the most important	84
of the lead	84
the capacity of	84
be of the	84
the fire box	84
a straight line	84
as will be	84
addition to the	84
the diameters of	84
the crank is	84
on both sides	84
be made of	83
must be made	83
produced by the	83
into the boiler	83
reason of the	83
at a time	83
the base of	83
square inch of	83
the upper part	83
could not be	83
of the weight	83
to make it	83
in the end	83
the inside of	83
on the face	83
used for the	83
to each other	83
but when the	83
if there is	83
be required to	82
boulton and watt	82
on the road	82
of the piece	82
it is also	82
heat of the	82
of the nut	82
of the rest	82
is apt to	82
of the condenser	82
the presence of	82
are as follows	82
the position shown	82
in consequence of	81
which have been	81
and this is	81
the square of	81
not to be	81
to allow the	81
is one of	81
the tool post	81
of the motor	81
to some extent	81
far as the	81
into the cylinder	81
the lathe centres	81
two or three	81
depth of cut	80
from the cylinder	80
to produce a	80
of the bearing	80
work to be	80
work in the	80
the engine and	80
to the axis	80
it to be	80
up and down	80
to the diameter	79
may be employed	79
of the bed	79
an example of	79
removed from the	79
diameters of the	79
that it was	79
one of which	79
set to the	79
the steam chest	79
the aid of	79
the square inch	79
the slide valve	79
being shown in	79
friction of the	79
the feed water	79
strokes per minute	79
of the power	79
as a guide	79
the piston to	78
so long as	78
will be observed	78
b and c	78
it is possible	78
has been found	78
cause it to	78
that the tool	78
is not the	78
should always be	78
is shown a	78
as is shown	78
of the carriage	78
of the shell	78
will be in	77
of the cam	77
the pitch line	77
the lathe is	77
in all cases	77
the engine was	77
of the tap	77
as they are	77
of the mandrel	77
over the fire	77
it is very	77
point in the	77
will cause the	77
to take the	76
arrangement of the	76
fit to the	76
the sewing machine	76
of the diameter	76
case may be	76
the consumption of	76
in one piece	76
to drive the	76
fitted with a	76
and the same	76
a speed of	76
steam and water	76
to permit the	76
of the engines	76
the employment of	76
to receive a	76
in the year	75
made by the	75
the thread is	75
teeth of the	75
a set of	75
the cylinder bore	75
difference in the	75
which it was	75
both sides of	75
the expense of	75
and as a	75
as the case	75
of the ordinary	75
as long as	75
how would you	75
what is a	75
the duty of	75
the formation of	75
be the same	75
the process of	75
may be obtained	75
for the first	75
babcock wilcox boiler	74
the case may	74
the same diameter	74
to the condenser	74
there was no	74
of babcock wilcox	74
if it be	74
corresponding to the	74
to which it	74
of the oil	74
the arrangement of	74
history of the	74
in the water	74
there was a	73
of its length	73
piece of wood	73
the progress of	73
of the locomotive	73
for this reason	73
of cut off	73
the loss of	73
and that of	73
evident that the	73
the history of	73
of the back	73
and the latter	73
long as the	73
a great deal	73
less than the	73
to per cent	73
base of the	73
is due to	73
indicated by the	73
and the engine	73
and the boiler	73
thus in fig	73
the water from	73
of steam to	73
the plane of	73
by the steam	73
the steam from	73
of the length	73
of the top	73
the piston in	72
when the tool	72
to the surface	72
to the water	72
the hole in	72
the flow of	72
and in this	72
of motion of	72
in cases where	72
on the opposite	72
to obtain the	72
in many cases	72
form of a	72
points of the	72
to test the	72
the volume of	72
of the upper	72
that the water	72
that of a	72
larger than the	72
that he had	72
of the body	72
of the circle	72
which must be	72
by the same	72
centres of the	72
direction in which	72
on the right	71
the emery wheel	71
proportion of the	71
each of the	71
to get the	71
a matter of	71
at that time	71
square feet of	71
supposed to be	71
of the file	71
to carry the	71
a certain amount	71
to be in	71
manner in which	71
of the spring	71
one or two	71
a in fig	71
greater than the	71
the cutter is	71
is the most	71
the opposite side	71
cubic foot of	71
because it is	71
but in the	71
up in the	70
by this means	70
the centres of	70
of the world	70
that the work	70
more than one	70
the quality of	70
of the centre	70
such as the	70
many of the	70
operated by the	70
horse power of	70
for the same	70
on a level	70
given in the	70
is that of	70
amount of power	70
in the engine	70
while the other	70
in the cut	70
of the great	70
is a very	70
represented in fig	69
to a certain	69
in the second	69
in the furnace	69
c and d	69
we have a	69
screw of the	69
may not be	69
that is necessary	69
in this manner	69
the condition of	69
to be of	69
square foot of	69
square of the	69
place in the	69
take up the	69
of the bore	69
of the iron	69
of the pin	69
in case of	68
the truth of	68
less than that	68
of a lathe	68
should be of	68
this is not	68
of steam in	68
it was found	68
order that the	68
is made of	68
length of stroke	68
the medium of	68
so that by	68
the pressure in	68
may also be	68
it is well	68
to cut a	68
so that if	68
to the crank	68
a form of	68
means of which	68
the manner of	68
the piston and	68
which the work	68
if the work	68
taken from the	68
to adjust the	68
the direction in	68
may be placed	68
can be done	68
the centre line	68
to the proper	68
to the tool	68
would have been	67
care must be	67
be given to	67
is found to	67
is used in	67
this method of	67
in a direction	67
a distance of	67
variation in the	67
the same size	67
instead of being	67
and it was	67
one pound of	67
has already been	67
of the new	67
as to give	67
than in the	67
can only be	67
the main reservoir	67
and there is	67
to force the	67
is the best	67
of the best	67
to remove the	67
various forms of	66
that they may	66
the steam and	66
the same thing	66
the expansion of	66
and by the	66
equal to that	66
by the number	66
the eccentric rod	66
the advantages of	66
used as a	66
to turn the	66
it is advisable	66
shown at a	66
the water to	66
a is a	66
is not a	66
all of the	66
of the flue	66
contained in the	66
to the length	66
to form the	66
in the latter	66
more than the	66
the back end	66
when the work	66
the work may	66
what should be	65
any part of	65
which the water	65
that has been	65
center of the	65
the wheel is	65
in the tube	65
of the turret	65
to one of	65
the holes in	65
it was not	65
in the fire	65
to the pressure	65
and the pressure	65
the distance from	65
of its stroke	65
the steam pipe	65
level with the	65
upon which the	65
fastened to the	65
the cross slide	65
shortness of water	65
has to be	65
which case the	65
and should be	64
quantity of heat	64
to the front	64
to be moved	64
fact that the	64
has not been	64
the ratio of	64
below the piston	64
at this time	64
the cylinder in	64
increase in the	64
the parts of	64
of the surface	64
certain amount of	64
the interior of	64
may be found	64
is necessary that	64
it is termed	64
fitted to the	64
and for the	64
the manner in	64
of the exhaust	64
the following table	64
in the manner	64
end of which	64
into the work	64
the centrifugal force	64
may be turned	64
the babcock wilcox	64
total weight of	64
one of them	64
as that of	64
in the proportion	63
in each case	63
the existence of	63
upper part of	63
most of the	63
of the wood	63
greater than that	63
back to the	63
the screw is	63
there would be	63
the tops of	63
to the shaft	63
the lower part	63
so that a	63
on the sides	63
necessary that the	63
from the steam	63
it is sometimes	63
engines of the	63
per horse power	63
an inch thick	63
the same amount	63
by the screw	63
efficiency of the	63
rotation of the	63
than the other	63
that the steam	63
on the inside	63
in the construction	63
of a given	62
the live centre	62
on to the	62
with relation to	62
miles per hour	62
of the jaws	62
and the amount	62
on the lathe	62
while it is	62
is operated by	62
heat from the	62
number of threads	62
a temperature of	62
of the gases	62
surfaces of the	62
as at b	62
an engine of	62
is better to	62
to the side	62
which is shown	62
to bear the	62
they can be	62
led to the	62
in a line	62
that they are	62
care should be	62
to the upper	62
cause of the	62
ought to be	62
of heating surface	62
and also the	62
a cubic foot	62
proportional to the	62
dimensions of the	62
of the cylinders	61
of the lower	61
end of this	61
as has been	61
of the worm	61
was the first	61
would be a	61
the same proportion	61
the resistance of	61
condition of the	61
and the piston	61
on the surface	61
the pressure is	61
opening of the	61
the engine to	61
it is impossible	61
to take a	61
is a good	61
the dimensions of	61
of a locomotive	61
when the crank	61
of the groove	61
of the various	61
the work done	61
which has a	61
cubic feet of	61
men of science	61
the piston will	61
to pass through	61
is difficult to	61
of the large	61
capable of being	61
the top face	61
expansion of the	61
at the beginning	60
be placed in	60
above the piston	60
of the whole	60
the saw is	60
instead of a	60
the piece of	60
per square foot	60
to raise the	60
from a to	60
placed between the	60
the square root	60
requiring to be	60
fixed to the	60
into contact with	60
the course of	60
is liable to	60
to the pitch	60
tool may be	60
the same way	60
three or four	60
the work by	60
the cut is	60
the place of	60
at the centre	60
added to the	60
the manufacture of	60
the carriage is	60
that on the	60
the absence of	59
tops of the	59
for a given	59
illustrated in fig	59
of the material	59
passed through the	59
from the top	59
from the same	59
operated by a	59
value of the	59
square root of	59
are made of	59
and the valve	59
in the usual	59
with which it	59
appears to be	59
be equal to	59
to let the	59
the jaws of	59
to regulate the	59
at the proper	59
of the apparatus	59
through the medium	59
in the chuck	59
that the pressure	59
at the front	59
with the line	59
be noted that	59
to show the	59
the case with	59
which is not	59
as is the	59
of the road	58
with a view	58
of the high	58
work will be	58
interior of the	58
enable it to	58
is done by	58
in the top	58
in a straight	58
the work surface	58
pound of coal	58
it is required	58
the working of	58
a pound of	58
in the tool	58
the beginning of	58
is in a	58
from which it	58
is intended to	58
the range of	58
the possibility of	58
introduction of the	58
should be placed	58
similar to the	58
of the pinion	58
it from the	58
that he was	58
it is an	58
the greater the	58
of the arrow	58
the hand wheel	58
supply of steam	58
work to the	57
it and the	57
and the water	57
may be moved	57
of the way	57
with each other	57
to the fact	57
of the governor	57
the metal of	57
the adjustment of	57
a of the	57
a state of	57
this is done	57
to cut the	57
of the explosion	57
as a centre	57
specific heat of	57
line on the	57
front end of	57
if the engine	57
line of motion	57
the chuck plate	57
by the hand	57
on the left	57
let it be	57
the chuck is	57
the mouth of	57
to obtain a	57
the effects of	57
cut in the	57
necessary for the	56
in this country	56
the lathe and	56
attached to a	56
observed that the	56
a quarter of	56
description of the	56
cutting edge is	56
in either case	56
to be set	56
contact of the	56
the high pressure	56
the keely motor	56
the passage of	56
effect of the	56
to the piston	56
the low pressure	56
to the fire	56
is represented in	56
said to be	56
on the upper	56
be used as	56
to meet the	56
a steam engine	56
an angle to	56
there is an	56
from the engine	56
to give a	56
will give the	56
diameter than the	56
from the bottom	56
will be necessary	56
leading to the	55
the teeth on	55
of cold water	55
by the following	55
of the edge	55
depending upon the	55
to be operated	55
its adjusted position	55
the outer end	55
be obtained by	55
the same in	55
of the small	55
is said to	55
of one of	55
fit of the	55
attention to the	55
in the wheel	55
of a piece	55
there may be	55
iron or steel	55
travel of the	55
up the wear	55
in which he	55
of the coal	55
the fit of	55
if it were	55
found in the	55
in a given	55
tension of the	55
in one of	55
the name of	55
by a screw	55
of the hub	55
the first of	55
the work as	55
driven by the	55
the percentage of	54
the hot well	54
that all the	54
quality of the	54
position shown in	54
the wheel to	54
as it was	54
of the bottom	54
shown on the	54
an inch in	54
same manner as	54
the hole is	54
the question of	54
more than a	54
for many years	54
to the point	54
the tension of	54
so that its	54
consequence of the	54
to its cut	54
be capable of	54
are used for	54
space between the	54
which the tool	54
and the whole	54
is advisable to	54
is given in	54
one with the	54
the engine has	54
duty of the	54
about the same	54
the cylinder to	54
to the cross	53
we have the	53
together with the	53
the steam which	53
the other is	53
are of the	53
and the lower	53
from the end	53
in both cases	53
may be given	53
truth of the	53
the shaft is	53
to use a	53
be found to	53
to the lower	53
of the brake	53
it is desirable	53
the requirements of	53
of the total	53
on that side	53
has been made	53
a short time	53
of the valves	53
small quantity of	53
the removal of	53
so arranged that	53
of the square	53
amount of heat	53
is desired to	53
in the bottom	53
metal of the	53
such as to	53
two or more	53
b of the	53
cutting edge of	53
placed at the	53
provided in the	53
teeth on the	53
the distance of	53
it is seen	53
is not so	53
on the square	53
in its adjusted	53
to be bored	53
it is desired	53
the opening of	53
of the brasses	53
the steam shovel	53
as to prevent	53
on top of	53
are used in	52
of the paddle	52
and has a	52
which is to	52
it would not	52
of cutting edge	52
there should be	52
diameter at the	52
after it has	52
it is essential	52
the time the	52
by turning the	52
the spindle is	52
it is difficult	52
required to be	52
are apt to	52
end view of	52
how is the	52
to its seat	52
off the steam	52
hence it is	52
to enter the	52
in working order	52
be sufficient to	52
should then be	52
amount of steam	52
of the emery	51
between the lathe	51
be less than	51
is allowed to	51
was found to	51
should be kept	51
may be operated	51
should be as	51
with the steam	51
up by the	51
the addition of	51
in the air	51
be provided with	51
upon the shaft	51
it is preferable	51
advance of the	51
of the pattern	51
a length of	51
the fire is	51
of a single	51
the heating surface	51
great deal of	51
lower part of	51
of the required	51
work on the	51
with the axis	51
in the slide	51
may be adjusted	51
each of these	51
engine of the	51
be made in	51
by the arrow	51
water to the	51
the stuffing box	51
pair of wheels	51
the cutter head	51
of the steel	51
of a revolution	50
of the boilers	50
the present time	50
if the tool	50
passage of the	50
as there are	50
such as in	50
in the hole	50
this will be	50
and the length	50
b in fig	50
and the two	50
with the water	50
the water will	50
to the size	50
opposite to the	50
as it will	50
by the pressure	50
to the square	50
but this is	50
will have to	50
the shaft and	50
connected by a	50
in either direction	50
or in the	50
of the side	50
represented by the	50
the left hand	50
will be at	50
is possible to	50
it is clear	50
a view to	50
of the force	50
of a small	50
and can be	50
the engine will	50
th of the	50
same time the	50
as to make	50
angles to the	50
and at a	50
to secure the	50
to the wheel	50
a great many	49
given amount of	49
which carries the	49
in the side	49
the whole length	49
it is used	49
right and left	49
in a vertical	49
of this type	49
the principles of	49
portions of the	49
be on the	49
follows that the	49
applied to a	49
at a speed	49
same as that	49
in the condenser	49
can be moved	49
independent of the	49
positions of the	49
a method of	49
long enough to	49
is applied to	49
to produce the	49
the importance of	49
the finishing cut	49
to admit the	49
that it shall	49
character of the	49
the first to	49
causing it to	49
is made in	49
inserted in the	49
in advance of	49
this part of	49
of the th	49
by the action	49
at all times	49
it is now	49
and also to	49
with that of	49
cut on the	49
similar to that	49
of the earth	49
air from the	49
into which the	49
the sum of	49
the oil is	49
as the tool	49
to a great	49
on the rod	49
not more than	49
shown at b	49
but as the	48
b is the	48
to place the	48
to maintain the	48
is not necessary	48
of the flange	48
the character of	48
of the plates	48
pressure of lbs	48
provided with an	48
i do not	48
the location of	48
in the present	48
the completion of	48
is composed of	48
when they are	48
on the back	48
or to the	48
at the pitch	48
the cylinder cover	48
under these conditions	48
cutting edges of	48
would require to	48
will be more	48
while at the	48
to be observed	48
fed to the	48
of the hammer	48
down upon the	48
which had been	48
the means of	48
the link motion	48
as nearly as	48
centre line of	48
in the two	48
change in the	48
act as a	48
that as the	48
the tool in	48
the invention of	48
the development of	48
that which is	48
of steam at	48
to see that	48
volume of the	48
an end view	48
of the united	47
quarter of a	47
when the steam	47
cylinder of the	47
walls of the	47
can be obtained	47
held by the	47
and one of	47
to one side	47
the combustion of	47
is greater than	47
the valve and	47
that shown in	47
and with a	47
should be set	47
the valve to	47
used on the	47
to the table	47
the right hand	47
on the front	47
the cut off	47
and the feed	47
of the diagram	47
the pitch circles	47
that we have	47
the steam will	47
of this engine	47
half an inch	47
referring to the	47
to the atmosphere	47
to be able	47
to keep it	47
jaws of the	47
it might be	47
a guide to	47
is connected with	47
the exhaust port	47
of the end	47
working of the	47
and all the	47
as early as	47
against which the	47
c of the	47
in the former	47
or if the	47
the belt is	47
which is in	47
of the circumference	47
a given amount	47
this type of	47
amount of clearance	47
of a screw	47
same as the	47
the perimeter of	46
suppose that the	46
a means of	46
a section of	46
part of its	46
that it can	46
the side faces	46
of steam is	46
worked by the	46
a tendency to	46
which the engine	46
should be so	46
put on the	46
and the diameter	46
in the engraving	46
is less than	46
large enough to	46
to an amount	46
the machine was	46
of the instrument	46
in its place	46
cut by the	46
of the ship	46
which passes through	46
the rear of	46
as at c	46
to the cutting	46
was in the	46
of these engines	46
in this respect	46
true to the	46
the results of	46
in mind that	46
the kind of	46
beginning of the	46
depend upon the	46
is secured to	46
will be less	46
may be considered	46
in opposite directions	46
of the second	46
far as possible	46
keely motor company	46
in the table	46
point at which	46
that there are	46
the tool may	46
the walls of	46
there must be	46
on the dead	46
the first place	46
one or more	46
will be of	46
as the steam	46
is equivalent to	46
for that purpose	46
the joint faces	46
up to a	46
of superheated steam	46
and therefore the	46
is impossible to	46
is not to	46
to be very	46
of the blade	46
position in the	46
the front face	46
point on the	45
the heads of	45
the same direction	45
the subject of	45
removal of the	45
the generating circle	45
need not be	45
placed upon the	45
at the present	45
upon the same	45
is obtained by	45
its own weight	45
to do so	45
the laws of	45
should have a	45
as there is	45
time to time	45
engine and tender	45
knowledge of the	45
by placing the	45
the performance of	45
marked on the	45
the feed pump	45
be allowed to	45
that he has	45
end for end	45
into the condenser	45
as it were	45
of the vertical	45
resistance of the	45
path of the	45
prevent it from	45
the drill is	45
to the valve	45
is termed a	45
on the crank	45
the bed of	45
is determined by	45
third of the	45
is set to	45
and then the	45
be found in	45
of the three	45
and having a	45
on the part	45
by a small	45
consumption of fuel	45
from the pressure	45
which a is	45
the rod end	45
of threads per	45
and the top	45
the water and	45
described in the	45
by moving the	45
work of the	45
it appears that	45
should also be	45
the small end	45
only of the	45
of water to	45
on the steam	45
quantity of steam	45
for the steam	45
from time to	45
of the train	45
of the fly	45
while in the	44
the lathe spindle	44
mouth of the	44
is out of	44
it possible to	44
it was a	44
in the upper	44
same amount of	44
revolutions of the	44
the difference of	44
are in the	44
at which it	44
power per hour	44
stroke of piston	44
side of a	44
e and f	44
the latter will	44
to the world	44
the space between	44
the stroke of	44
a small quantity	44
when there is	44
be reduced to	44
the difficulty of	44
there are three	44
the proportions of	44
the design of	44
much as possible	44
end of its	44
from the work	44
a hole in	44
of rotation of	44
the spindle and	44
the air is	44
the best results	44
to avoid the	44
to compensate for	44
the extent of	44
placed in a	44
a train of	44
all parts of	44
the v s	44
of the set	44
on the wheel	44
to a foot	44
the success of	44
a certain extent	44
the tool holder	44
the throttle valve	44
amount of water	44
may be of	44
and the end	44
in the lower	44
for the following	44
to act as	44
may be a	44
what may be	44
in this position	44
in which they	44
be found by	44
that the engine	44
at a temperature	44
of the hand	44
the feed valve	44
made on the	44
a to b	44
bushel of coal	44
in which there	43
on the bar	43
mounted on the	43
amount of work	43
as the pressure	43
is seen that	43
you will find	43
in place by	43
of the country	43
c is the	43
of the journal	43
the surfaces of	43
the nut is	43
steam at the	43
out of line	43
it is at	43
rear of the	43
of the four	43
of engine in	43
which there is	43
to use the	43
as to leave	43
of the form	43
of the key	43
of the car	43
or of the	43
off from the	43
quantity of air	43
weight of steam	43
as fast as	43
this tool is	43
much of the	43
as the piston	43
be used on	43
be found that	43
the radial face	43
made of the	43
is a great	43
of the needle	43
i have been	43
aid of the	43
be in a	43
be held in	43
side by side	43
at a and	43
if you have	43
to make them	43
inches to a	43
the automatic brake	43
as it would	43
a very small	43
by making the	43
the watt engine	43
it is of	43
the table is	43
is supposed to	43
the end view	43
and in a	43
surface of a	43
out of gear	43
completion of the	43
and that it	43
the same purpose	43
one in which	43
the piston has	43
by the time	43
in the use	42
to the first	42
on the bottom	42
in gear with	42
high pressure steam	42
consists of two	42
the under side	42
as to form	42
mounted on a	42
carried in a	42
and it follows	42
of larger diameter	42
the other the	42
table gives the	42
rest of the	42
angles of the	42
along the bed	42
in a boiler	42
there are many	42
of inches diameter	42
the teeth in	42
progress of the	42
but in this	42
the work being	42
admitted to the	42
sectional view of	42
than any other	42
so that there	42
to be at	42
as to enable	42
loss due to	42
of the driver	42
the two halves	42
foot of water	42
which would be	42
plane of the	42
which it will	42
a device for	42
to mark the	42
to enable it	42
to the main	42
do is to	42
see that the	42
shaft of the	42
made with a	42
may be applied	42
to do the	42
the products of	42
to accomplish this	42
of coal per	42
brake pipe pressure	42
is held by	42
piece of iron	42
in the ordinary	42
would be necessary	42
one foot high	42
of a tooth	42
to open the	42
is that which	42
from the furnace	42
as near as	42
it is more	42
in its length	42
air in the	42
and which is	42
must not be	42
screwed into the	42
by which it	42
on the inch	42
by the length	42
to feed the	42
corners of the	42
distance of the	42
location of the	42
in a few	42
one tube cornish	42
to the rear	42
the composition of	41
the causes of	41
of new york	41
length of time	41
as the diameter	41
that have been	41
the work axis	41
moved by the	41
the contact of	41
seems to have	41
in the early	41
in making the	41
of the holder	41
point of contact	41
was found that	41
was to be	41
on the lead	41
and the point	41
the eccentric is	41
and we have	41
the point at	41
d and e	41
is given to	41
acts as a	41
to the position	41
be adjusted to	41
of the point	41
and hence the	41
one of two	41
done by the	41
a column of	41
at that end	41
on the cross	41
as the water	41
with the tool	41
the brake valve	41
out from the	41
liverpool and manchester	41
on either side	41
is not in	41
of the proper	41
made for the	41
the specific heat	41
and the cylinder	41
on the th	41
slot in the	41
a mixture of	41
two of the	41
from to inches	41
exactly the same	41
the condenser and	41
of the taper	41
coefficient of friction	41
if the water	41
the shaft of	41
may be required	41
mark on the	41
but it will	41
the jaws are	41
in the way	41
the transmission of	41
to the feed	41
from b to	41
a b c	41
may be held	41
what is meant	41
the travel of	41
with the crank	41
is shown by	41
for the work	41
of the one	41
one on each	41
error in the	41
will be as	41
shown at c	41
inch of the	41
at the head	41
a represents the	41
an engine is	41
on the engine	41
or it may	41
the same distance	41
work and the	41
of the face	41
small amount of	41
is bolted to	41
from the fire	41
is meant by	41
to close the	40
be put in	40
fixed in the	40
the water of	40
of a large	40
they will be	40
cause of explosion	40
that it would	40
at any time	40
the condensation of	40
and the upper	40
principle of the	40
diameter of drivers	40
any number of	40
to be found	40
or any other	40
with the lathe	40
of the casting	40
in conjunction with	40
have the same	40
as indicated by	40
at any point	40
bed of the	40
what is called	40
the two ends	40
shown in section	40
supplied to the	40
would have to	40
contact between the	40
the cutting speed	40
valve in the	40
with the centre	40
steam will be	40
passes through a	40
at both ends	40
that will be	40
filled with water	40
to provide a	40
to the slide	40
may be necessary	40
engine in working	40
of the front	40
is caused by	40
of water from	40
or from the	40
the wheel and	40
in a horizontal	40
to allow for	40
should be the	40
the form shown	40
engines of this	40
it is often	40
to work the	40
the science of	40
products of combustion	40
causes it to	40
especially if the	40
must be used	40
the idea of	40
is sufficient to	40
number of the	40
precisely the same	40
and out of	40
to the rod	40
the leading screw	40
in the line	40
open to the	40
for which the	40
of the joint	40
as a rule	40
the rest of	40
imparted to the	40
by operating the	40
into the chimney	40
it on the	40
as to cause	40
will then be	40
it is made	40
of the live	40
in the front	40
may be removed	40
and when it	40
the stem of	40
through the centre	40
of cylinders inches	40
a level gross	40
that they will	40
tool in the	40
the feed is	40
of the turbine	40
had to be	40
level gross tons	40
circle of the	40
on the main	40
diameter of cylinders	40
the accuracy of	40
the upper surface	39
to grip the	39
than would be	39
of the arms	39
the admission of	39
and they are	39
can also be	39
the first thing	39
against the face	39
cent of the	39
a quantity of	39
to leave the	39
as the work	39
compared with the	39
is necessary in	39
be caused by	39
a good deal	39
coincident with the	39
inch per foot	39
of the following	39
and b the	39
economy of fuel	39
automatic brake valve	39
they are not	39
of a wheel	39
it is usually	39
foot of the	39
a connecting rod	39
which he had	39
the state of	39
different parts of	39
or the other	39
equal to one	39
communication with the	39
be placed on	39
and in some	39
divided by the	39
of the ring	39
of a new	39
as a whole	39
the engine in	39
made to the	39
even with the	39
to the chuck	39
of steam and	39
from the point	39
to the shape	39
the law of	39
cases where the	39
another form of	39
through the fire	39
motion from the	39
as not to	39
one of his	39
the rod is	39
may be the	39
whole length of	39
of from to	39
upon the face	39
example of the	39
the boiler in	39
in the shaft	39
of small diameter	39
the piece is	39
the exhaust steam	39
to those who	39
nearer to the	39
of a pair	39
the eccentric chuck	39
at a in	39
design illustrated by	39
and if it	39
the angles of	39
from and at	39
be apt to	39
the methods of	39
that would be	39
to the action	39
raised or lowered	39
to the use	39
general design illustrated	39
the valve will	39
that the valve	39
is found that	39
end to the	39
of water at	39
to be drawn	39
about per cent	39
the bar is	39
must then be	39
a slide rest	38
it is true	38
it will have	38
known as a	38
the tool rest	38
before it is	38
and for this	38
the work at	38
which he has	38
in regard to	38
of the double	38
power of an	38
c is a	38
by the diameter	38
is at a	38
brought to bear	38
are made in	38
united states standard	38
of the strap	38
the philosophy of	38
he had been	38
with a small	38
explained with reference	38
centre of motion	38
in the length	38
on the boiler	38
the bolt head	38
from the line	38
direct acting screw	38
at the rear	38
the steam valve	38
be taken as	38
that in a	38
been found to	38
the hub of	38
as large as	38
piston to the	38
thread on the	38
it is best	38
at a high	38
the present day	38
being as follows	38
the first cut	38
to be carried	38
as can be	38