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 end of the644
the diameter of the617
as shown in fig566
the top of the490
in the case of487
the length of the464
is shown in fig436
the bottom of the429
the centre of the403
at the same time368
it is obvious that341
the pressure of the334
the face of the323
by means of a314
by means of the287
the surface of the258
at a right angle241
in the direction of240
the ends of the219
at the end of213
the weight of the211
a right angle to207
the thickness of the205
the sides of the204
it is necessary to202
on the other hand199
the action of the197
the size of the196
the direction of the196
the side of the195
the axis of the191
the temperature of the190
the position of the187
the edge of the183
in this case the169
for the purpose of165
as shown in the160
the back of the158
the speed of the153
right angle to the152
on account of the144
is provided with a143
the height of the143
it is evident that142
the body of the142
one side of the141
the use of the141
the motion of the139
it will be seen139
the water in the138
the line of centres138
the width of the136
the nature of the136
the pitch of the135
pounds per square inch130
pressure of the steam130
in the form of128
the point of the128
the construction of the125
the number of teeth125
each side of the124
on the other side124
as denoted by the124
at the bottom of123
the area of the122
on each side of121
by the use of121
end of the cylinder120
the depth of the120
in the united states118
to that of the118
in contact with the118
the outside of the118
the middle of the117
the circumference of the117
is obvious that the116
the whole of the116
each end of the114
the bore of the112
water in the boiler111
one end of the110
at the top of109
such as shown in109
the level of the107
from end to end107
a piece of work107
or in other words107
number of teeth in105
the use of a104
the other end of104
will be seen that102
as in the case102
the case of the101
the shape of the100
the other side of100
the amount of the99
as well as the99
at the other end98
so that it may97
that it may be96
and at the same95
in line with the94
the axial line of94
the radius of the94
from the centre of94
the velocity of the93
when the engine is93
it is to be92
at right angles to92
in the opposite direction90
the wear of the90
the strength of the90
the lower end of89
at the rate of88
other side of the88
axial line of the88
of the water in87
the front of the87
in proportion as the87
the angle of the87
to the end of86
the upper end of86
the power of the86
that is to say86
other end of the85
in the same manner85
the operation of the84
by the dotted lines83
the movement of the83
it consists of a83
shown in the figure82
on one side of81
by reason of the81
one to the other81
the case of a80
a part of the79
on the end of78
that part of the77
the difference between the77
end of the work77
the point of cut77
the faces of the77
to the amount of77
at the back of76
diameter of the cylinder76
as soon as the76
denoted by the dotted76
as shown by the75
than that of the75
at each end of75
the pressure on the74
in place of the74
the edges of the73
the distance between the73
to the top of73
one of the most72
to the bottom of72
the case may be72
of water in the72
of the cutting edge71
to the axis of71
the form of a71
as the case may71
it will be observed71
the form of the71
of the crank shaft70
the base of the70
lower end of the70
end of the stroke70
on the top of69
in proportion to the69
the inside of the69
the part of the69
the steam in the69
the friction of the69
the direction in which68
in order that the68
so as to be68
by means of which68
is attached to the67
the end of a67
in the middle of67
the square of the67
in front of the67
the head of the67
both sides of the66
and it is obvious66
of the slide rest66
the top and bottom66
of babcock wilcox boilers65
in which case the65
may be made to64
in the centre of64
a certain amount of64
the manner in which64
steam from the boiler63
it is necessary that63
the fact that the63
to the line of62
the center of the62
of the connecting rod62
to the length of62
so that it will62
point of cut off62
by the number of61
of the crank pin61
it is better to61
the upper part of61
to the centre of61
of the diameter of61
a portion of the61
all that is necessary60
of the length of60
power of the engine60
in addition to the60
may be used to60
care must be taken60
so that when the60
bottom of the cylinder60
on the face of59
be seen that the59
in connection with the59
it will be found59
as is shown in58
pressure of the cut58
upper end of the58
to the diameter of58
through the medium of58
and it will be57
the diameters of the57
is one of the57
the hole in the57
surface of the water57
the square root of57
pressure of the atmosphere57
direction of the arrow57
the force of the56
the interior of the56
top of the cylinder56
with relation to the56
is evident that the56
the capacity of the56
bottom of the boiler55
the tops of the55
the cause of the55
of the work is55
will be observed that55
the steam from the54
on the opposite side54
to take up the54
in the proportion of54
to the fact that54
the same manner as54
the heat of the54
care should be taken53
of teeth in the53
in the same way53
in a straight line53
in the construction of53
the front end of53
what should be done53
so far as the53
it is advisable to53
of the lead screw53
one with the other52
and that of the52
the quantity of water52
steam in the boiler52
in its adjusted position52
the teeth of the52
it is required to52
be observed that the52
on both sides of52
in which it is51
the holes in the51
that of the atmosphere51
is equal to the51
a great deal of51
the number of revolutions51
of motion of the51
the position shown in51
at an angle of51
and the amount of51
the work to be50
by the dotted line50
the adjustment of the50
the metal of the50
at an angle to50
the work may be50
the lower part of50
inches in diameter and50
with a view to50
the same time the49
a cubic foot of49
to which it is49
the same as that49
the application of the49
is due to the49
pressure on the piston49
out of the way49
it is desired to49
upper part of the48
by the action of48
at the top and48
on the side of48
right angles to the48
the work will be48
the introduction of the48
of the piston rod48
it is difficult to47
the tension of the47
in consequence of the47
that there is no47
of the steam engine47
the quality of the47
top of the boiler47
in the position shown47
the pressure in the47
at the ends of47
equal to that of47
of an inch thick46
the difference in the46
the beginning of the46
face of the work46
the centre line of46
to the size of46
of the united states46
the efficiency of the46
the centres of the46
into contact with the46
it is possible to46
and as a result46
it follows that the46
per square inch of46
on the surface of45
to be able to45
such as in fig45
from time to time45
a given amount of45
on the square inch45
in the first place45
the cutting edge of45
the same as the45
it is impossible to45
as far as possible45
the pressure of steam45
on the outside of44
is necessary that the44
shown by the dotted44
in the same direction44
square root of the44
to a certain extent44
side of the piston44
any part of the44
is found to be44
the same amount of44
is shown in the44
shown in the cut44
as much as possible44
of threads per inch43
the opening of the43
is shown in figs43
on the dead centre43
greater than that of43
when the piston is43
inches to a foot43
a small quantity of43
may be used for43
it is seen that43
end of the boiler43
of the cylinder in43
in the same proportion43
being shown in fig42
at the point of42
total weight of engine42
diameter of the work42
on the part of42
of the same diameter42
on the line of42
as in the figure42
the mouth of the42
of the work and42
length of the work42
end of the shaft42
to enable it to42
is driven by a42
be given to the42
the expansion of the42
there will be a42
the duty of the42
the history of the42
the jaws of the42
the line of motion42
the fit of the42
is the same as42
of the pitch circle42
a piece of wood42
part of the boiler42
the path of the42
the truth of the42
with reference to the42
of a piece of42
is placed in the41
to the face of41
front end of the41
end of the rod41
means of which the41
in the use of41
the dimensions of the41
what is meant by41
an end view of41
from a to b41
so long as the41
so that they may41
with the axis of41
of steam in the41
it was found that41
the arrangement of the41
stroke of the piston41
is the same thing41
this part of the41
as will be seen41
per square foot of41
be applied to the41
centre line of the41
surface of the work41
lower part of the41
speed of the engine41
the keely motor company41
a level gross tons40
diameter of cylinders inches40
cubic foot of water40
so as to give40
centre of the work40
on a level gross40
as it is termed40
it has been found40
end of which is40
between the lathe centres40
and the length of40
engine in working order40
the rear of the40
of engine in working40
the babcock wilcox boiler40
weight of engine in40
in which a is40
the distance from the40
so as to prevent39
the working of the39
the walls of the39
the work to the39
take up the wear39
general design illustrated by39
per cent of the39
at a speed of39
of the air pump39
cutting edge of the39
the aid of the39
is known as the39
would be the case39
the depth of cut39
the amount of power38
to the action of38
less than that of38
the location of the38
direction in which the38
of the tool is38
the whole length of38
the place of the38
from the end of38
in the absence of38
it is not necessary38
explained with reference to38
at the beginning of38
the rest of the38
of the steam in38
it is found that38
what is the same38
the points of the38
and the diameter of38
as a guide to37
may be set to37
it is well to37
arc of a circle37
the water from the37
to one of the37
to the use of37
when the work is37
the plane of the37
and it follows that37
should be taken to37
the automatic brake valve37
the removal of the37
an angle to the37
by the diameter of37
in the end view37
of the centre of37
is to be used37
that they may be37
the specific heat of37
one on each side37
is represented in fig36
the value of the36
of a pair of36
the number of threads36
at the time of36
number of threads per36
in the bottom of36
of the fire box36
on top of the36
the effect of the36
is determined by the36
is not to be36
that the amount of36
diameter of the wheel36
the proportion of the36
that it can be36
may be done by36
the quantity of heat36
length of the stroke36
the travel of the36
the bed of the36
of steam to the36
when the tool is36
action of the fire36
the passage of the36
level of the water36
the screw of the35
by the aid of35
power of an engine35
for the following reasons35
illustrated by print on35
by print on page35
temperature of the steam35
of the cross head35
the line of the35
all parts of the35
ths of an inch35
which the work is35
opposite side of the35
of the piston is35
at one end of35
pitch of the lead35
edge of the tool35
so as to form35
in the usual manner35
in the length of35
the work and the35
the piston is at35
would require to be35
the condition of the35
the end of its35
as a result the35
an inch in diameter34
end of the beam34
the character of the34
as well as to34
motion of the piston34
for the reception of34
to the surface of34
the tool may be34
scale inches to a34
when the crank is34
due to the fact34
is secured to the34
so that if the34
point of the drill34
as that of the34
of miles an hour34
to do is to34
design illustrated by print34
the stroke of the34
as shown at a34
of an inch in34
as nearly as possible34
it be required to34
the cause of explosion34
so as not to34
the piston to the33
from left to right33
the products of combustion33
the supply of steam33
from the bottom of33
in such a manner33
power installation of babcock33
the direction of motion33
is to be observed33
one of which is33
the outer end of33
the amount of clearance33
cause of the explosion33
it will not be33
against the face of33
the resistance of the33
the point at which33
a quarter of a33
it is desirable to33
is to be made33
from to per cent33
as a general rule33
as is the case33
will be necessary to33
installation of babcock wilcox33
the completion of the33
from and at degrees33
in advance of the33
with that of the33
but it is not33
so as to bring32
between it and the32
the cylinder in inches32
but in this case32
the middle of its32
as indicated by the32
in order to prevent32
face of the chuck32
the periphery of the32
and bottom of the32
the distance of the32
the teeth on the32
of the line of32
bottom of the thread32
the same number of32
as the diameter of32
by this means the32
the cutting edges of32
will be found to32
in that case the32
end of the lever32
the cutting edge is32
the space between the32
in one piece with32
from the top of32
point at which the32
other parts of the32
the sum of the32
and the number of32
it is clear that32
if the work is32
denoted by the arrow32
of the babcock wilcox32
in a given time32
it is essential that32
that shown in fig32
of the cylinder is32
the stem of the32
is bolted to the32
the amount of this32
by the application of32
equal to the diameter32
as long as the32
at a in fig32
a good deal of31
the progress of the31
the point of contact31
in the top of31
is connected with the31
sides of the thread31
square inch of section31
point of the tool31
that it will not31
be of the same31
one in which the31
for the first time31
it will be necessary31
the use of steam31
to act as a31
as shown in figs31
so as to enable31
the under side of31
as to prevent the31
a pair of wheels31
the opposite side of31
with the result that31
is held in a31
of the engine is31
at one end and31
the form shown in31
at the pitch circle31
in this way the31
of the boiler is31
and is provided with31
pressure per square inch31
must be taken to31
that the pressure of31
are shown in fig31
end view of the31
the full length of31
of the boiler to30
as well as in30
or it may be30
of the weight of30
to the axial line30
by the length of30
a given quantity of30
from the pressure of30
what is known as30
so that it is30
will be the same30
a hole in the30
the boiler to the30
to be used for30
the quotient is the30
the angles of the30
circumference of the wheel30
of the explosion was30
your very humble servant30
the work in the30
an amount equal to30
is the case with30
pitch of the thread30
position shown in fig30
part of the engine30
there will be no30
held in place by30
by means of an30
there would be no30
borne in mind that30
that is necessary is30
shown in the engraving30
unable to bear the30
of the cylinder bore30
the flanks of the30
it is best to30
in some cases the30
while at the same30
of a number of29
with the line of29
the engine is running29
set at an angle29
on the inside of29
of the live spindle29
the object of this29
is one in which29
to a great extent29
is to be cut29
whole length of the29
this is shown in29
the pitch circle of29
the pratt and whitney29
of the generating circle29
at a temperature of29
pitch of the teeth29
by the pressure of29
end of the link29
different parts of the29
from the fact that29
the same proportion as29
which is shown in29
addition to engine and29
of the same size29
of the work to29
depth of the cut29
of one of the29
the cube root of29
in addition to engine29
in cases where the29
of the use of29
cause of explosion was29
the parts of the29
described with reference to29
the end of this29
top and bottom of29
distance from the centre29
in order to obtain29
the intensity of the29
the course of the29
work is to be29
to engine and tender29
it being obvious that29
of this kind is29
of revolutions per minute28
so as to have28
is fastened to the28
a distance equal to28
with which it is28
of the machine is28
of which is a28
is a piece of28
is connected to the28
larger in diameter than28
line of motion of28
the thread on the28
than the diameter of28
to pass through the28
with a piece of28
as may be required28
will be found that28
the grain of the28
obtained by means of28
be equal to the28
end of the tube28
in a state of28
the upper surface of28
of a steam engine28
the steam and water28
upon the face of28
be used as a28
the medium of the28
in order to make28
side of the cutter28
be borne in mind28
so as to leave28
of the piston and28
the thread in the28
teeth in the wheel28
as far as the28
in a line with28
the principle of the28
centre of the crank28
of the emery wheel28
which the steam is28
of which is shown28
it is intended to27
is obvious that if27
be placed on the27
in which there is27
on either side of27
the volume of the27
on the sides of27
in the tool post27
was one of the27
of the dead centre27
of the boiler and27
of the eccentric rod27
is the purpose of27
in which the work27
to the face plate27
manner in which the27
is provided with an27
it is in the27
in the course of27
in such a way27
to be operated upon27
the water of condensation27
the result will be27
form shown in fig27
in view of the27
the cumberland valley railroad27
at the present time27
be the same as27
the pitch line of27
at the temperature of27
to the pressure of27
for the sake of27
of the sewing machine27
of the valve is27
top of the thread27
the construction of a27
capacity of tank gallons27
axis of the work27
is applied to the27
in diameter than the27
may be obtained by27
through the centre of27
top of the piston27
from right to left27
cubic inch of water27
parts of the engine27
in the slide rest27
the greater part of27
a pressure of lbs27
the remainder of the27
is necessary is to27
the direction of rotation27
square feet of heating26
it was not until26
may be found by26
would have to be26
made of cast iron26
the cost of the26
the corners of the26
to the square inch26
the line a a26
is caused by the26
in the same plane26
is known as a26
a line with the26
is obvious that in26
the back end of26
length of the rod26
end of the bar26
what is the purpose26
is not necessary to26
at a pressure of26
of the boiler was26
the reception of the26
the low pressure cylinder26
of the teeth are26
the crank pin is26
to the temperature of26
a and b are26
diameter of the bolt26
in terms of the26
of the nature of26
which is provided with26
the length of a26
for the use of26
the latter may be26
is shown by the26
it is easy to26
in the shape of26
the amount of steam26
in the following table26
per pound of coal26
stroke of the engine26
length of stroke driving26
of rotation of the26
was found to be26
the design of the26
that is to be26
but in the case26
from the boiler to26
face of the wheel26
the ratio of the26
what would you do26
is not the case26
side of the engine26
the object of the26
as to bring the26
may be applied to26
a large number of26
the piece to be26
of the most important25
that end of the25
feet of heating surface25
with the exception of25
of the wheel and25
the piston in lbs25
in addition to this25
with reference to fig25
which may be done25
the foot of the25
to the required diameter25
may be necessary to25
the crank is on25
to the side of25
it is provided with25
a great number of25
which passes through the25
angle to the axis25
outer end of the25
middle of its length25
is taken from the25
a b c d25
will depend upon the25
it is usual to25
either side of the25
against the end of25
the object being to25
be placed in the25
the use of this25
the distance apart of25
of the teeth on25
which a is the25
after it has been25
used in connection with25
a pair of compasses25
as a result of25
above the level of25
and in this case25
of some of the25
is said to be25
opposite sides of the25
it is probable that25
end of the spindle25
divide the product by25
the descent of the25
from the american machinist25
to enable them to25
in the manufacture of25
cube root of the25
the upper side of25
sectional view of the25
the production of steam25
the perimeter of the25
of the steam is25
is supposed to be25
cutting edges of the25
feet in a mile25
of the top of25
full length of the25
as it is sometimes25
a piece of iron25
eighth of an inch24
wrought iron or steel24
the success of the24
the spring of the24
length of cutting edge24
the action of a24
cylinder inches in diameter24
of the engine and24
to an amount equal24
each revolution of the24
on the lead screw24
it will be noted24
it is a good24
which is equivalent to24
movement of the piston24
the alignment of the24
of the keely motor24
in one of the24
of the teeth of24
line of the crank24
turned in the lathe24
will you explain the24
is held in the24
to compensate for the24
in the first case24
under side of the24
to cause it to24
nature of the work24
from that of the24
the heat from the24
babcock wilcox chain grate24
the radial face of24
in a direction to24
the same time as24
to the number of24
the latent heat of24
two sides of the24
that the diameter of24
the direction of arrow24
to bear the ordinary24
the reaction of the24
without the use of24
the product of the24
because in that case24
end to end of24
to the lathe bed24
of the cylinder and24
the advantages of the24
will have to be24
in the line of24
the consumption of fuel24
the direction of its24
horse power of babcock24
a large amount of24
that due to the24
the work should be24
the first thing to24
so as to make24
a bushel of coal24
the cylinder of the24
the development of the24
that the length of24
is essential that the24
as near as possible24
while the other is24
in the production of24
to pounds per square24
power of babcock wilcox24
is placed on the23
the flanges of the23
the mercury in the23
as possible to the23
threads to the inch23
which consists of a23
may be taken as23
in the process of23
the cylinder and the23
which the engine is23
is inches in diameter23
angle to the line23
and the work is23
exposed to the action23
at the foot of23
the connecting rod is23
as the square of23
be used for the23
force of the steam23
should be made of23
is said to have23
pitch line of the23
of the number of23
is to be done23
the breadth of the23
direct acting screw engines23
of the cutting edges23
seems to have been23
was shown in fig23
of the thread is23
grain of the wood23
the same as in23
in the end of23
will you describe the23
same as that of23
so as to keep23
of the power of23
side of the belt23
the arc of approach23
the amount of water23
the expansive force of23
be found that the23
in the same time23
the mean effective pressure23
at its lower end23
to prevent it from23
be found in the23
and the pressure of23
necessary in order to23
the air in the23
area of the piston23
are shown in figs23
quantity of water in23
the work of the23
the number of the23
position shown in the23
the liverpool and manchester23
will be in the23
it is preferable to23
as to enable the23
is operated by a23
diameter of the pitch23
parts of an inch23
as a matter of23
it may be remarked23
in the operation of23
and on the other23
at the point where23
on the bottom of23
the arc of recess23
be used in the23
thickness of the tooth23
is seen that the23
the boiler should be23
to the depth of23
the amount of heat23
end of the piston23
of one pound of23
for the reason that23
in the direction in23
contact with the work23
the united states standard23
has been found to23
the position in which22
of the lathe bed22
in the diameter of22
of the chuck is22
the density of the22
to the edge of22
thread to be cut22
upper side of the22
amount equal to the22
when it is desired22
so that it shall22
be the case if22
the two sides of22
the speed at which22
in such a case22
that side of the22
there can be no22
the same as for22
the thrust of the22
the advantage of the22
so that it can22
the coefficient of friction22
the piston of the22
radial face of the22
is used in the22
may be caused by22
can be used for22
the face of a22
indicated by the dotted22
the diameter of a22
the purpose of the22
it is only necessary22
end of the connecting22
in some of the22
the other end is22
the teeth in the22
on the piston in22
the work is held22
by the amount of22
the frame of the22
it becomes necessary to22
relation to the work22
the lengths of the22
which there is a22
face of the tool22
of the bottom of22
the piston at the22
upon the end of22
the combustion of the22
top face of the22
being at a right22
on the ends of22
a section of the22
is given in fig22
is the difference between22
it has been shown22
for the production of22
as to form a22
in the history of22
in a similar manner22
with the edge of22
the influence of the22
is represented by the22
from the axis of22
of the same pitch22
is that of the22
with the axial line22
a piece of metal22
let it be required22
eighths of an inch22
the top face of22
by the force of22
the result of the22
it will be noticed22
piston is at the22
of the feed screw22
distance apart of the22
to the shape of22
a pressure of pounds22
will be noted that22
tool shown in fig22
horse power per hour22
the boiler and the22
one piece with the22
that it is not22
the rate of feed22
with the centre of22
so soon as the21
the line of lathe21
the employment of a21
is operated by the21
upper surface of the21
construction being as follows21
turned end for end21
at right angles with21
root of the pressure21
so that the pressure21
such a manner that21
a certain number of21
same manner as the21
circulation of the water21
the live spindle is21
the tool should be21
to the upper end21
at a and b21
to the back of21
an arc of a21
of the pressure on21
so arranged as to21
of the piston in21
so that the water21
the accuracy of the21
back end of the21
the hole to be21
from the surface of21
will cause it to21
on one side and21
the boiler was not21
the crown of the21
it may be necessary21
are provided with a21
is carried in a21
end of its stroke21
the positions of the21
it may be set21
and the weight of21
of a cubic foot21
as was shown in21
the commencement of the21
and there will be21
the revolution of the21
expansion of the steam21
the construction being as21
the efficiency of a21
to the quantity of21
stand at a right21
and divide the product21
of direct acting screw21
to be used in21
from the use of21
brought to bear upon21
the end of each21
to which they are21
pitch of lead screw21
in the hands of21
in pounds per square21
axially true with the21
equipped with babcock wilcox21
be raised or lowered21
screw of the slide21
the determination of the21
square foot of grate21
may be made of21
and for this reason21
is the amount of21
to end of the21
number of revolutions per21
at the centre of21
the momentum of the21
the steam will be21
to do the work21
the tool will be21
diameter of drivers to21
be made in the21
there should be a21
the rotation of the21
end of the valve21
the strain of the21
steam in the cylinder21
according to the direction21
a sectional view of21
this is done by21
back of the lathe21
the application of a21
as it is called21
the shape of a21
of drivers to inches21
inch above the atmosphere21
on the same shaft21
the surfaces of the21
varied to suit the21
on a piece of21
what would be the21
should be made to21
your favour of the21
by which it is21
made of wrought iron21
must be taken that21
so that the tool21
every part of the21
the piston rod is21
the engine is to21
be set to the21
quarter of an inch21
side of the boiler21
on the pitch circle21
is fitted with a20
the strain due to20
it may be stated20
a given weight of20
in feet per minute20
the bottoms of the20
the work is to20
faces of the teeth20
in mind that the20
the point where the20
as to cause the20
ends of the tubes20
same proportion as the20
parallel to the axis20
which is to be20
on the principle of20
which it is to20
in order to avoid20
to the thickness of20
wilcox boilers and superheaters20
and the end of20
descent of the piston20
the contact of the20
may be set at20
the circumference of a20
in the boiler is20
be removed from the20
of a tooth on20
may be divided into20
the wheel to be20
that it will be20
the setting of the20
in diameter and feet20
of the area of20
the same diameter as20
the other parts of20
line of lathe centres20
the joint faces of20
those in which the20
of the work table20
the number of strokes20
the small end of20
is at a right20
of the circumference of20
by the hand wheel20
the rim of the20
babcock wilcox boilers and20
and in this way20
in the way of20
to one side of20
it would be necessary20
while the engine is20
of the stuffing box20
quarter of a century20
be attached to the20
the piston and the20
after the manner of20
of inches in diameter20
a side view of20
to the weight of20
to set the work20
from the line of20
of the end of20
this may be done20
the manner of a20
with the face of20
for the same purpose20
the hub of the20
as shown at b20
the taper of the20
various parts of the20
part of an inch20
with the aid of20
in such a position20
and at the other20
in this case it20
the rear end of20
piece of work is20
it would be a20
work in the lathe20
feet in diameter and20
the centre of motion20
the power of steam20
of the mercury in20
of the surface of20
may be used in20
is obvious that a20
amount of heating surface20
this class of work20
so as to avoid20
by one of the20
the shape shown in20
in an opposite direction20
to correspond with the20
in the event of20
with respect to the20
is such as to20
end of the screw20
of this class of20
and it may be20
as a means of20
one and a half20
to the point of20
worked by the engine19
an angle of degrees19
as would be the19
the different parts of19
diameter of drivers inches19
the same distance from19
is fixed to the19
in proportion to its19
in which the steam19
some part of the19
a small amount of19
in accordance with the19
the brown and sharpe19
this is accomplished by19
cent of the total19
the high pressure cylinder19
is attached to a19
an example of a19
work to be done19
with steam of lbs19
will be noticed that19
of the amount of19
it would not be19
as well as for19
the requirements of the19
the university of pennsylvania19
it must be remembered19
are attached to the19
explain the operation of19
are a number of19
before the end of19
diameter of the generating19
be noted that the19
the velocity with which19
so that the work19
in relation to the19
to be capable of19
by means of two19
a good plan to19
the object is to19
sewing machine of about19
the amount of feed19
at the rear of19
in place by the19
so that they will19
been made in the19
a number of pieces19
it may be used19
the section of the19
under the pressure of19
than would be the19
it would appear that19
that of the other19
is held to the19
the horse power of19
was found that the19
the two halves of19
a right and left19
of the sides of19
crank end of the19
in the latter case19
to the work axis19
if there is any19
of which is to19
in so far as19
it is capable of19
to be given to19
is a good plan19
as quickly as possible19
of the present day19
this is the case19
when the latter is19
a temperature of degrees19
travel of the valve19
at the front end19
head end of the19
so that the steam19
this was the first19
be provided with a19
a cubic inch of19
of an engine is19
is all that is19
in the lathe and19
to the radius of19
of the cutting tool19
and it is found19
is placed between the19
which the water is19
the reason for this19
of which it is19
and the latter is19
a machine of this19
the invention of the19
in a vertical position19
the same quantity of19
the teeth may be19
points of the teeth19
is the number of19
any one of the19
as the number of19
which it may be19
the first of these19
part of the work19
per pound of fuel19
an example of the19
at the head of19
in communication with the19
diameter and feet long19
it is at the19
th of an inch19
at the commencement of19
at the side of19
at the small end19
in which case it19
and it is seen19
to the pitch of19
and there is no19
of the wheel is19
of the parts of19
parallel one to the19
the time of the19
the production of the19
of the steam to18
will be apt to18
sectional area of the18
the exterior of the18
small end of the18
we have now to18
applied to the work18
the proper amount of18
is capable of being18
of the hole to18
so as to cut18
what is the best18
it is sometimes termed18
favour of the th18
at the expense of18
when the valve is18
the part to be18
is given to the18
on the same side18
with babcock wilcox chain18
the babcock wilcox co18
rear end of the18
the objection to this18
the axes of the18
on opposite sides of18
under the action of18
square foot of fire18
axis of the shaft18
as to give the18
and it is necessary18
of the form shown18
to the cutting edge18
strain due to the18
to bear the usual18
the curvature of the18
ends of the cylinder18
it may be noted18
per pound of dry18
and it is not18
to the present time18
line of centres of18
the required amount of18
the flow of steam18
shown in dotted lines18
the piece of work18
come into contact with18
direction of rotation of18
to prevent them from18
pressure in the boiler18
the production of a18
the weakness of the18
the surface of a18
on the crank shaft18
to feet per minute18
below the level of18
is denoted by the18
is in contact with18
one end to the18
the work must be18
the best method of18
i have no doubt18
true one with the18
the quantity of steam18
to its original position18
from centre to centre18
has passed through the18
with one of the18
the same side of18
cylinder of the engine18
is seen in the18
the heads of the18
of the screw is18
work of this kind18
in and out of18
front of the boiler18
the thread of the18
with the use of18
to be found in18
and in the same18
same diameter as the18
is parallel to the18
the main body of18
is only necessary to18
so as to cause18
upon the amount of18
it is well known18
a quarter of an18
side of the tooth18
a slot in the18
and at a right18
such a way that18
in the one case18
is a matter of18
to the work table18
is fast upon the18
in the number of18
the quantity of air18
that there will be18
and the other end18
at the crank end18
brought into contact with18
and in some cases18
one or the other18
is in line with18
the opposite end of18
the large end of18
will be seen by18
as the length of18
the arc of contact18
which is attached to18
in the usual way18
of heat from the18
of steam from the18
come in contact with18
of the cylinder to18
to allow for the18
the side faces of18
at the middle of18
thickness of the plate18
a column of water18
is open to the18
an equal degree of18
the thread to be18
to be observed that18
main body of the18
may be adjusted to18
the lathe face plate18
the piston will be18
of an unknown force18
end of the piece18
the same size as18
the size of a18
is mounted on a18
the dotted lines in18
at one end to18
and the face of18
equal to twice the18
is illustrated in fig18
to cut off the17
machine in which the17
to an angle of17
to be cut off17
of contact of the17
the same shaft as17
the expense of the17
when the piston has17
what will be the17
of the wheel rim17
end of the crank17
may be made by17
to hold the work17
the steam to the17
are shown in the17
may be used as17
centre of the shaft17
what is termed a17
of the lathe and17
inside of the rim17
at the head end17
same side of the17
in the first instance17
can be done by17
its adjusted position by17
of the safety valve17
of the shaft is17
if there is no17
of that of the17
four miles an hour17
the feed water is17
each square foot of17
is found that the17
the side of a17
the escape of the17
tops of the teeth17
by the time the17
through shortness of water17
one end of which17
the length of stroke17
on each square inch17
the front face of17
and in the other17
as an example of17
the slide rest is17
evaporation from and at17
the line a b17
the same degree of17
and in the case17
that there is a17
wilcox chain grate stokers17
with the live spindle17
of coal per hour17
part of the stroke17
in the following manner17
and the depth of17
have contact with the17
the edge of a17
when the boiler is17
which is operated by17
sides of the piston17
of the work will17
per pound of combustible17
on the th of17
is in this case17
of pounds per square17
in the development of17
the inch above the17
side of the tool17
move to the right17
so arranged that the17
that portion of the17
it is apt to17
to and from the17
it is liable to17
the air pump rod17
height of the water17
the crank end of17
is to be turned17
at the back end17
in the face of17
the elasticity of the17
and the result will17
to the other end17
in the application of17
a greater number of17
the philosophy of the17
the contents of the17
diameter of the circle17
by a pair of17
one within the other17
in a general way17
the composition of the17
what may be termed17
be determined by the17
and one of the17
and the tool is17
pounds to the square17
in which a represents17
it is true that17
the length of belt17
in either case the17
raised one foot high17
the engine has been17
is driven by the17
the head end of17
out of the cylinder17
pressure of steam in17
upon the surface of17
the curves of the17
a speed of miles17
it is considered that17
at its upper end17
this can be done17
so far as it17
not be less than17
can be made to17
as it would be17
has been shown that17
the elastic force of17
bear the ordinary pressure17
up and down in17
to cut a thread17
as shown at c17
to the lower end17
at the upper end17
the direction of a17
the full diameter of17
of larger diameter than17
is to make the17
in which they are17
equal in length to17
two halves of the17
of revolution of the17
in the steam pipe17
speed of miles an17
walls of the hole17
when the lathe is17
are given in the17
on the under side17
of the university of17
the flange of the17
and the thickness of17
about the same time17
as well as a17
of the body of17
a piece of sheet17
may be employed to17
of that part of17
as seen in the17
the air pump is17
a certain quantity of17
the same way as17
flanks of the teeth17
shape shown in fig17
in babcock wilcox boilers17
and it is evident17
both ends of the17
to to to to17
the engine should be17
of the work in17
as well as on17
on the same principle17
in the manner of17
should be provided with17
in a horizontal position17
the marquis of worcester17
as soon as it17
in the side view17
to the position shown17
number of revolutions of17
the shaft of the17
temperature of the water17
position in which it17
to the crank pin17
direction of motion of17
the engines of the17
the work done by17
at every point in17
the generation of steam17
on the edge of17
the engine on the17
in a short time17
would be necessary to17
the upper face of17
the said richard trevithick17
will be required to17
is greater than that17
be used to cut17
in gear with the17
the safe working pressure17
the air from the17
the boiler may be17
look for the trouble17
which is done by16
to the level of16
this class of fuel16
of the wheel to16
the rate of miles16
it is very difficult16
the lead screw is16
full diameter of the16
distance between the centres16
under the direction of16
thousandths of an inch16
at the base of16
diameter of the rivet16
the details of the16
the load on the16
in the presence of16
the various parts of16
outer edge of the16
are to be made16
the right of the16
so that by operating16
of the chuck plate16
is the duty of16
the application of steam16
was the first to16
in order to get16
through which the steam16
the condenser and air16
the number of degrees16
adjusted position by the16
operation is as follows16
of the bore of16
the expansion of steam16
on the upper side16
to the body of16
of the steam and16
will be equal to16
that it would be16
small quantity of water16
shape of the tool16
which is necessary to16
not shown in the16
the growth of the16
the root of the16
of the tool and16
through which the water16
is inserted in the16
there is but one16
of any of the16
the simplest form of16
have been made to16
and the boiler was16
the fact that it16
at the same temperature16
the following table gives16
at a time when16
is connected by a16
part of the machine16
parallel to the line16
it is not so16
the piston in the16
the introduction of steam16
height of the tool16
in diameter to the16
side face of the16
is to be found16
length of the cylinder16
to take off the16
of the same length16
faces of the brasses16
by the employment of16
to move to the16
but on the other16
larger diameter than the16
of the valve and16
an increase in the16
the inner end of16
that in this case16
reversing the direction of16
the two ends of16
of the moving parts16
the teeth of a16
the difference of the16
root of the quotient16
of which may be16
be moved to the16
given in the following16
to the ends of16
the loss of heat16
is the diameter of16
at the time the16
one and the same16
face of the tooth16
this is not the16
multiplied by the diameter16
out of the boiler16
a piece of steel16
centre of the lathe16
opposite end of the16
condensation of the steam16
on account of its16
to the height of16
is the result of16
half the length of16
angle one to the16
speed of the vessel16
parallel to each other16
the formation of the16
to be used on16
at which it is16
the barrel of the16
the other of the16
to the construction of16
great care must be16
side faces of the16
length of the line16
of air through the16
the opposite direction to16
there are a number16
half the diameter of16
the cylinder at the16
journal bearing in the16
of centres of the16
weight of the atmosphere16
in the matter of16
a certain portion of16
the calorific value of16
of the water to16
to just touch the16
the total amount of16
bushels of coal in16
the tool to the16
the amount of taper16
held in position by16
in the fire box16
cubic feet of water16
front face of the16
to permit of the16
the same as a16
one foot high in16
with the length of16
of the rolling circle16
philosophy of the steam16
the work at the16
distance equal to the16
of water from the16
and the use of16
is at an angle16
should be of the16
may also be used16
to the slide rest16
must be made to16
with the surface of16
the case with the16
the effect of this16
formed as in fig16
the outline of the16
the same direction as16
but this is not16
large end of the16
the top of its16
of brake pipe pressure16
may be raised or16
diameter of the shaft16
the amount to which16
it should be made16
contact with the water16
in which s is16
is necessary in order16
of the two wheels16
to be the case16
one pound of water16
used for this purpose16
of tooth upon tooth16
speed at which the16
position of the eccentric16
and by means of16
the power required to16
to the sides of16
cubic feet of air16
so small as to16
the factor of safety16
as it will be16
operation of the engine16
no matter what the16
above and below the16
the magnitude of the16
greater part of the16
body of the chuck16
the boiler had been16
product coke oven gas16
the nose of the16
in conjunction with the16
equal to the pitch16
as little as possible16
in the general view16
shape of the work16
at and near the16
there is no danger16
the variation in the16
is on the dead16
value per pound of16
of the latter is16
in the amount of16
the said francisco uville15
are bolted to the15
but it may be15
be true with the15
denoted by the arrows15
body of the tool15
the boiler to be15
it may be well15
from shortness of water15
what is the difference15
of the link motion15
as one of the15
be found by multiplying15
this case it is15
inch of the piston15
the tool can be15
take a piece of15
if there is a15
as there is no15
the end face of15
of the pressure of15
for the most part15
speed of the piston15
thickness of the metal15
concentric with the mandrel15
of the steam pipe15
the tool in the15
so that the latter15
the number of turns15
to reverse the direction15
weight of the engine15
means of the hand15
joint faces of the15
bed of the lathe15
to be on the15
by the condensation of15
which may be used15
direct acting screw engine15
taking up the wear15
is at the end15
at the same angle15
by the motion of15
the ordinary working pressure15
which will give the15
chucking and turning machine15
a segment of a15
the lead screw will15
from the face of15
and the work will15
at the line of15
where would you look15
in the plan view15
the parts of a15
side of the cylinder15
the hardness of the15
so as to permit15
the valve will be15
they are to be15
reaction of the issuing15
the line on the15
hand side of the15
square of the velocity15
is very difficult to15
is governed by the15
the force with which15
equal to the length15
and the position of15
of the watt engine15
would you look for15
for a long time15
you look for the15
to be made to15
means of the screw15
inches stroke of piston15
the bottom of a15
reduction of brake pipe15
a line parallel to15
in the position of15
of the method of15
the return of the15
of steam and water15
it will be a15
used in place of15
of the thread in15
application of the brake15
as close to the15
is necessary to have15
placed side by side15
times the square root15
run out of true15
the formation of a15
raise the temperature of15
to the front of15
giving motion to the15
by the weight of15
to the middle of15
of the thread to15
of the teeth in15
that it is the15
the advantage that the15
end of the lathe15
diameter of wheels inches15
of this arrangement is15
shown at a in15
the cutter may be15
depth of the thread15
is also used for15
about inches in diameter15
thing to do is15
of the engine by15
of the royal society15
foot of grate surface15
of the various parts15
in the flue gases15
the thread is cut15
in the figure the15
when it is in15
for the supply of15
to put on the15
it is not unusual15
an equal amount of15
to give to the15
should be placed in15
of the crank and15
the weight of steam15
as to make it15
on one side only15
of the engine was15
the cylinder to the15
museum of history and15
the adoption of the15
diameter of the tap15
the work can be15
the work by the15
are placed on the15
with the end of15
and the other the15
by the following rule15
as at a in15
to condense the steam15
use of superheated steam15
angle to the work15
and the top of15
the high pressure steam15
that in which the15
the lead of the15
pipe leading to the15
be set at any15
during the arc of15
be in the same15
the steam at the15
the structure of the15
one of the first15
in the main reservoir15
at any required angle15
comes in contact with15
which the tool is15
the opening in the15
denoted by the line15
of water per hour15
the effects of the15
the absence of the15
in which the tool15
the end of which15
to be in the15
length of the crank15
so that there is15
the side face of15
it would be difficult15
times the diameter of15
the dead centre and15
to the required size15
the inside face of15
the same as those15
that it is impossible15
and in order to15
the path of contact15
the inclination of the15
the case if the15
above that of the15
than the width of15
or what is the15
the engine is at15
of a series of15
to the production of15
held in a chuck15
the name of the15
and is driven by15
be such as to15
out of gear with15
in the same position15
the left of the15
about half an inch15
it will be understood15
crank is on the15
about feet per minute15
some of the most15
the use of superheated15
revolution of the work15
of feet per minute15
that the point of15
the baldwin locomotive works15
a machine in which15
it has already been15
should not be less15
the first of the15
are to be cut15
but it will be15
that the tool is15
the extremity of the15
a point on the15
on the back of15
so as to allow15
be added to the15
a greater or less15
the water through the15
the piece of wood15
one revolution of the15
the top of a15
the conditions under which15
of the face plate15
be supposed to be15
reverse the direction of15
at the moment of15
to the brake cylinder15
and out of the15
the steam to escape15
by the end of15
the work on the15
moved to the right15
is exposed to the15
the form of steam15
on the main track15
it may be observed15
must be remembered that15
of history and technology15
the suction of the15
the outer edge of15
upon the nature of15
the case when the15
the consumption of steam15
at miles an hour15
it must not be15
until such time as15
the arc of a15
close to the work15
is of great importance15
if the tool is15
one half of the15
is used for the15
parts of the boiler15
end of the hub15
the centre of pressure15
first thing to do15
the house of commons15
the crank shaft is15
is moved by the15
is regulated by the15
the tendency of the15
of the piston at15
in order to give15
in one direction only15
if it is not14
two ends of the14
is obvious that when14
pitch of the screw14
be parallel with the14
the exception of the14
of the work may14
line with the axis14
that at which the14
in some cases a14
the amount of air14
between the boiler and14
the proportions of the14
a few of the14
side of the pulley14
right angle to a14
of the fact that14
in the present case14
power of the boiler14
to allow of the14
was inches in diameter14
the aid of a14
to be at the14
from the side of14
diameter of the piston14
are secured to the14
so that it cannot14
has arrived at the14
from the nature of14
when it is considered14
with swing bolster and14
and the quantity of14
the correctness of the14
is less than that14
an example of this14
by the expansion of14
of line with the14
to the nature of14
foot of fire grate14
a considerable quantity of14
the waters of the14
to have been made14
the weight of a14
of the point of14
cut off the steam14
enable it to cut14
in which the valve14
to the direction of14
the main reservoir pressure14
by the square of14
than is the case14
swing bolster and radius14
the rapidity with which14
of the tool point14
of the tool will14
upon the top of14
a top view of14
gave way at the14
same as in the14
the thickness of a14
the strength of a14
the bearings of the14
to a greater extent14
of a marine boiler14
it requires to be14
which passes through a14
out of line with14
it appears that the14
between the centres of14
be at a right14
in the formation of14
the case of large14
that is necessary to14
of saturated steam at14
the inner and outer14
for this class of14
is obvious that by14
from c to d14
for the purposes of14
as fast as the14
that the motion of14
of the present century14
specific heat of superheated14
it is desirable that14
in order to produce14
the construction shown in14
is of the same14
in this class of14
shown in the end14
the crank shaft of14
on the circumference of14
be used on the14
also be used for14
the medium of a14
and sides of the14
end for end in14
bottom of the hole14
may be held in14
per horse power per14
of the screw and14
across the face of14
to suit the work14
about the middle of14
equal in diameter to14
it may also be14
a pair of bevel14
the safety valve was14
will be in a14
is shown in section14
centre of the cylinder14
mercury in the tube14
the speed of rotation14
to the cylinder bore14
when it is required14
and it has been14
to insure that the14
as well as of14
the pressure per square14
horse power of the14
the lines of division14
made for the purpose14
and the pitch of14
we shall find that14
for a distance of14
is to have the14
the same time that14
is an end view14
by the addition of14
and thence to the14
in regard to the14
on the right hand14
precisely the same as14
a sufficient number of14
and if it is14
the tool to be14
the total length of14
made by means of14
part of the cylinder14
is of the utmost14
of which there are14
the strain upon the14
to suit the nature14
in the other direction14
of the crank is14
is clamped to the14
the early part of14