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sudden changes in temperature b top quality fabric coat(passive) caused bytension forces
the work string and wherein(passive) caused bya tension force
the abilityto createtension / force
No.[N / mm2resultingtension force
the inertia force of the passenger ( 1(passive) caused bya tension force
The tension force 's weight(passive) caused byThe tension force
forcing ink from a filtered fluid supply ( 35 ) , pressurized by said regulated fluid pump ( 32(passive) created bytension forces
any suitable means , such as with a torsion spring , wind - up spring or a dead weight on a cable hung over a pulley , and so forth(passive) can be created byThe tension force
the weight ( Newton 's 2nd ) of the hanger(passive) is caused bythe tension force
the different fault zone influence the production line(passive) caused bytension force
the shrinking of the surface and balancing layers during pressing and during cooling to room temperature(passive) caused bytension forces
the weight ( F = mg , which is constant ) of the weight hanger(passive) is created byThe tension force
This experiment was conducted by tying a sting to a pole and to a hanging weightto createa tension force
The mass tied to the stringcauseda tension force
the film contacting the roller(passive) caused bya tension force
8 and the seventh embodiment , the weight of the cells and/or foot rail below a cell 705 being unrolled from a roller 105createa tension force
the mounting element for mounting on the stationary structure(passive) caused bythe tension force
forcing pressurized fluid 35 through narrow slit 30 in the direction shown by reference numeral 44(passive) created bytension forces
The electric motorcreatestension forces
The load on a suspension bridgecreatestension forces
continuously(passive) can be setTensioning force
stretchy materials to cause motion(passive) created bytension forces
wires or ropes(passive) caused bytension forces
the sunshade(passive) created bytension forces
electricity(passive) are createdTension , power
as corresponding projections and undercuts in the form of recesses in the adjacent straps(passive) are preferably designedtension forces
such stretching into the bonded together portions of the elastic layer and tag(passive) caused bytension forces
The longitudinal component of these forcescausesthe flexural tension force
their ‘ nuclear springscreatestension force
loading conditions(passive) created bytension forces
shoulder depression into the mattress 1 28(passive) would ... be created bytension forces
y Required thickness of base platecausedtension force
pile driving(passive) caused bytension forces
wire on the buccal surface(passive) created byTension forces
Tightening of each nut 102causestension forces
shoulder depression into the mattress 1 30(passive) would ... be created bytension forces
These devicescreatetension forces
Epoxy 62 further actsto preventtension forces
compression forces caused by shearing forces a break in the body of a rock which one block slides relative to another a seismic wave that compresses and expands rock(passive) caused bytension forces
canopies , drapes , screens , etc(passive) created bytension forces
an object to move through pulling actionwill causean object to move through pulling action
electrons to flowcauseselectrons to flow
the overall bending moment(passive) caused bythe overall bending moment
the … Normal fault Break in rock(passive) caused bythe … Normal fault Break in rock
byA break in rock(passive) caused bybyA break in rock
along the alveolar surface and compression generated at the ventral cortexcreatedalong the alveolar surface and compression generated at the ventral cortex
a back strain increatesa back strain in
from the string between the massesresultingfrom the string between the masses
the serrated edge on steel plate 35 to dig or bite into the tree bark , thereby anchoring seat member 10 to the tree trunkcausesthe serrated edge on steel plate 35 to dig or bite into the tree bark , thereby anchoring seat member 10 to the tree trunk
in bone stresscan resultin bone stress
from concrete consolidated or gripping the bar at the deformation pointscreatedfrom concrete consolidated or gripping the bar at the deformation points
up in the lower lip and other forces ) T1 at least laterally towards each othersetup in the lower lip and other forces ) T1 at least laterally towards each other
the rod to crack and completely fracturecausesthe rod to crack and completely fracture
cracks in concretecan causecracks in concrete
3 Fault — the surface of a break in rock Normal fault(passive) caused by3 Fault — the surface of a break in rock Normal fault
an object to changecausesan object to change
from concrete consolidated or gripping the bar at the deformation aci 332 - 10createdfrom concrete consolidated or gripping the bar at the deformation aci 332 - 10
one side to rise above the othercauseone side to rise above the other
deformation of the main outer leather portion in a warping manner accompanying catching operations through this elastic material and enabling easy deformation of the main outer leather portion in a warping mannerpreventsdeformation of the main outer leather portion in a warping manner accompanying catching operations through this elastic material and enabling easy deformation of the main outer leather portion in a warping manner
the stone to break into particles small enough to pass out of the body during urinationcausethe stone to break into particles small enough to pass out of the body during urination
the rotational torque of the door 501(passive) caused bythe rotational torque of the door 501
Normal fault - when two plates are moving apart and one side of the fracture moves below the other(passive) caused byNormal fault - when two plates are moving apart and one side of the fracture moves below the other
rock above the fault surface to move downward normal faultscauserock above the fault surface to move downward normal faults
from a string connecting the two objectsresultingfrom a string connecting the two objects
the vertical displacement of rock blocks(passive) caused bythe vertical displacement of rock blocks
Tension Compression Shear Faulting Break in crustal rock with movement Normal Faults(Dip - slip fault(passive) Caused byTension Compression Shear Faulting Break in crustal rock with movement Normal Faults(Dip - slip fault
from the string pulling upon the bob of the pendulumresultsfrom the string pulling upon the bob of the pendulum
in the engaged floor panels 1 being forced towards each otherresultsin the engaged floor panels 1 being forced towards each other
from the overturning action ( i.e. , overturning moment ) caused by the lateral shear load on the shear wallresultfrom the overturning action ( i.e. , overturning moment ) caused by the lateral shear load on the shear wall
a negative ( clockwise ) torque , causing the spool to roll to the rightcontributesa negative ( clockwise ) torque , causing the spool to roll to the right
from the nucleotide linkers joining two neighboring beadsoriginatedfrom the nucleotide linkers joining two neighboring beads
between the container and an external structure which is located on the opposite side of such material body relative to the containercreated effectivelybetween the container and an external structure which is located on the opposite side of such material body relative to the container
the paint layers to delaminate from one another and the wood or metal you are refinishingcausethe paint layers to delaminate from one another and the wood or metal you are refinishing
stretching whereas torque causes twisting and tightening of the bolt and is an indirect indication of tensioncausesstretching whereas torque causes twisting and tightening of the bolt and is an indirect indication of tension
the pod to split open along a distinct separation layer that divides the valve margins from the replumcausethe pod to split open along a distinct separation layer that divides the valve margins from the replum
to formation which lead to formation of normal fault while compression force lead to formation of reverse faultleadto formation which lead to formation of normal fault while compression force lead to formation of reverse fault
therefrom , the fracture , ( which forms an angle opening to the stretch side at any rate above all if the base member of the finger is fracturedresultingtherefrom , the fracture , ( which forms an angle opening to the stretch side at any rate above all if the base member of the finger is fractured
a particle of mass m to move with constant angular speed ω in a circular path ( perpendicular to the page ) of radius R. Which of the following expressionscausesa particle of mass m to move with constant angular speed ω in a circular path ( perpendicular to the page ) of radius R. Which of the following expressions
The device of claim 1 wherein the flexible arm of the clip in normally biased toward the rigid arm so that when the clip means is clipped to the fuel injector air intake hose(passive) is createdThe device of claim 1 wherein the flexible arm of the clip in normally biased toward the rigid arm so that when the clip means is clipped to the fuel injector air intake hose
the corresponding surfaces 19 on the sides of the bay 18 which face away from the end 8 of the first plate to press against opposed corresponding surfaces 25 of the connector body 24 , allowing the plate system to resist tensioncausethe corresponding surfaces 19 on the sides of the bay 18 which face away from the end 8 of the first plate to press against opposed corresponding surfaces 25 of the connector body 24 , allowing the plate system to resist tension