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Smart Reasoning:

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Qaagi - Book of Why

Causes

Effects

the driving of the stage 19(passive) caused bythe reaction force

driving the stage ( WST(passive) caused bya reaction force

the driving movement(passive) created byreaction forces

driving the sample stage is transmitted(passive) caused bya reaction force

the movement of the mask stage to a first support structure(passive) caused bya reaction force

the movement of the mask stage substantially to the reaction frame(passive) caused bya reaction force

the driving of the stage main body(passive) caused bya reaction force

rebound of the hammer bit 219 during hammering operation(passive) caused bythe reaction force

the action force of the capillary(passive) caused bya reaction force

movement of the stage to a first support structure(passive) caused bya reaction force

rebound of the hammer bit 119 to the reaction force(passive) caused bythe reaction force

the movement of the mask stage to a reaction frame dynamically isolated from the projection system and the object stage(passive) caused bya reaction force

the pressing action(passive) caused bythe reaction force

a movement of the mask holding means(passive) caused bya reaction force

the movement of the mask stage and a second portion that receives a reaction force caused by the movement of the object stage(passive) caused bya reaction force

movement of the moving mirror 404(passive) caused bythe reaction force

the forward movement of the stage body(passive) caused bythe reaction force

the steps of driving(passive) caused byreaction forces

carriage driving(passive) caused bythe reaction force

the driving of the load(passive) caused bythe reaction force

the driving of the saw(passive) caused bya reaction force

driving the sample stage and by the vibration of the first transmitting member(passive) caused bythe reaction force

movable stage movement(passive) created bya reaction force

the movement of the mask stage by a first portion of the reaction frame and receiving a reaction force caused by the movement of the object stage by a second portion of the reaction frame(passive) caused bya reaction force

movement of the mask stage and the object stage when the mask stage and the object stage are moved by a drive(passive) caused byA reaction force

driving the reticle stage RST has on the projection optical system PL(passive) caused bythe reaction force

the reduction movement(passive) caused bythe reaction force

the step movement(passive) caused bythe reaction force

oscillator movement(passive) caused byreaction forces

the movement of the mask stage and the object stage to a reaction frame dynamically isolated from the exposure device(passive) caused bya reaction force

rebound of the hammer bit by the cushioning action of the cushioning member(passive) caused bythe reaction force

the movement of the stage substantially to the reaction frame(passive) caused bya reaction force

the movement of the coarse movement stage 16(passive) created bythe reaction force

the forming rollers that form the plate - shaped member and to thereby fundamentally block a wave phenomenon from occurring in the plate - shaped or sheet member that passes through the forming roll set.07 - 21 - 2011 20130067980GUIDE(passive) to be caused bya reaction force

movement of a stage and vibrations induced by the reaction forces(passive) created byreaction forces

movement of a stage within the scanning stage apparatus(passive) created byreaction forces

acceleration of the mass(passive) caused byreaction forces

driving a substrate stage supporting a substrate(passive) caused bya reaction force

rebound from the workpiece and acts on the hammer actuating member when the hammer actuating member performs the hammering operation on the workpiece(passive) is caused bya reaction force

the drill bit at the moment of impact(passive) caused bythe reaction force

in response to acceleration or deceleration of the stagecausedin response to acceleration or deceleration of the stage

nonzero accelerationcausesnonzero acceleration

upon the acceleration and decelerationcausedupon the acceleration and deceleration

from the fluid accelerationresultsfrom the fluid acceleration

to friction , heat , and wearleadto friction , heat , and wear

less acceleration of the basecausesless acceleration of the base

the output of the first motor 3resultingthe output of the first motor 3

from the expansion and acceleration of the gas through the blade passagesresultingfrom the expansion and acceleration of the gas through the blade passages

from stick - slip effects and frictionresultedfrom stick - slip effects and friction

from acceleration of the rotation of the balancer 21resultingfrom acceleration of the rotation of the balancer 21

on acceleration and deceleration of the wafer stagecausedon acceleration and deceleration of the wafer stage

from curving the bending part 42resultingfrom curving the bending part 42

from the mass distribution in the measuring slides during accelerationresultingfrom the mass distribution in the measuring slides during acceleration

friction between the channel slots 79e ' andcausesfriction between the channel slots 79e ' and

centripetal acceleration but you still want to call it a centrifugal forcecausescentripetal acceleration but you still want to call it a centrifugal force

motion of the gripping body 36 toward the central space as the segments 12 and 14 are drawn toward each othercausemotion of the gripping body 36 toward the central space as the segments 12 and 14 are drawn toward each other

from the acceleration and deceleration of the electric drive ( 30resultingfrom the acceleration and deceleration of the electric drive ( 30

from the acceleration of gases through the converging blade passageresultingfrom the acceleration of gases through the converging blade passage

from the actuation force generated by the first actuator;a controller , anda second actuatorresultingfrom the actuation force generated by the first actuator;a controller , anda second actuator

from movement of the movable memberresultingfrom movement of the movable member

the space station centre of mass to undergo centripetal acceleration toward the centre of rotationcausesthe space station centre of mass to undergo centripetal acceleration toward the centre of rotation

from the pressing - in operation which now beginsresultsfrom the pressing - in operation which now begins

from the friction resistance applied to the drive shaft or the loads of the wiringresultingfrom the friction resistance applied to the drive shaft or the loads of the wiring

from the transmitted to the housing 1 by way of the reaction engagement of the frictionresultingfrom the transmitted to the housing 1 by way of the reaction engagement of the friction

a moment about the nozzle assembly axiscreatesa moment about the nozzle assembly axis

by linear motor under the large acceleration and deceleration motioncausingby linear motor under the large acceleration and deceleration motion

a torque to be accomplishedcausesa torque to be accomplished

the reduction in torque ,(passive) being caused bythe reduction in torque ,

the yoke landing tips to accelerate away from the landing pads , producing a reliable release from the surface [ 52causesthe yoke landing tips to accelerate away from the landing pads , producing a reliable release from the surface [ 52

therefrom withinresultingtherefrom within

therefrom causesresultingtherefrom causes

the lift caused by wind or air streampreventingthe lift caused by wind or air stream

from the movement of the first substrate stage 1 in an XY directionresultingfrom the movement of the first substrate stage 1 in an XY direction

the angular moment(passive) caused bythe angular moment

the yoke landing tips to accelerate away from the landing pads , producing a reliable release from the surface 1 Table 1causesthe yoke landing tips to accelerate away from the landing pads , producing a reliable release from the surface 1 Table 1

from drive of the Y stage base in the Y directionresultingfrom drive of the Y stage base in the Y direction

damage from repeated impacts against the hull of ship , quay , jetty or mooring ropeto preventdamage from repeated impacts against the hull of ship , quay , jetty or mooring rope

from the bumping and pressing impact of the dynamic element against the static element ... and a handle located at the top of the press shaft and manipulated to control the advancing and retreating movement of the press shaftresultsfrom the bumping and pressing impact of the dynamic element against the static element ... and a handle located at the top of the press shaft and manipulated to control the advancing and retreating movement of the press shaft

from the bumping and pressing impact of the dynamic element against the static element ... and a handle located at the top of the press shaft to be manipulated to control the advancement and recession of the press shaftresultsfrom the bumping and pressing impact of the dynamic element against the static element ... and a handle located at the top of the press shaft to be manipulated to control the advancement and recession of the press shaft

in an increased fuel consumptionresultsin an increased fuel consumption

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Smart Reasoning:

C&E

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