「inertial」の共起表現一覧(1語右で並び替え)

inertial

1語右で並び替え

該当件数:172件

  • They measure inertial acceleration, also known as G-forces.
  • The guidance system is mixed-mode, with inertial, active terminal guidance with radar and also
  • the electrons reach dynamic equilibrium, the inertial and the collisional terms of the momentum equ
  • rge Rossby number signifies a system in which inertial and centrifugal forces dominate.
  • er hand, if we have a small object with equal inertial and passive gravitational masses falling in t
  • Suppose we have an object with inertial and gravitational masses m and M respectively
  • Guidance: General Precision/Kearfott KT-76 inertial and Stewart-Warner radar altimeter
  • ual description is used to unify the ideas of inertial and gravitational mass under general theories
  • also eliminate the strict distinction between inertial and noninertial frames.
  • The equivalence of inertial and gravitational masses is sometimes referre
  • ess number that relates the viscous forces to inertial and surface tension forces.
  • istinction is purely a matter of convenience; inertial and gravitational mass are different ways of
  • Proper frames can be inertial as well as non-inertial as in the example abo
  • for both lasers being the investigation into inertial confinement fusion, high energy density physi
  • developed as a prototype for systems to drive inertial confinement fusion.
  • e Livermore National Laboratory used to study inertial confinement fusion.
  • s the record for highest neutron yield of any inertial confinement fusion device to date.
  • tensity light-matter coupling experiments and inertial confinement fusion experiments including the
  • ht and examining its benefits with respect to inertial confinement fusion, Novette was also used in
  • nd compression devices such as the tokamak or inertial confinement fusion (ICF) devices that amplify
  • Inertial Confinement Fusion, 1982 (with Gregory A. Mos
  • Inertial confinement fusion (ICF), including heavy ion
  • ate 1980s and is used for investigations into inertial confinement fusion.
  • processes which impedes the laser coupling of inertial confinement fusion capsules.
  • in high-power lasers, notably those used for inertial confinement fusion (ICF) experiments.
  • e nuclear fusion energy research community in inertial confinement experiments.
  • ITER international project - and laser-based inertial confinement, as used in the United States' NI
  • through stages of rise, development, climax, inertial, convolution, and memorial.
  • eracting with their environment under bounded inertial delays.
  • article is the projection of the relativistic inertial dragging field caused by the particle's movem
  • Inertial drift of Kazami and AKF-11
  • , quasistatic loading refers to loading where inertial effects are negligible.
  • A mass flow meter, also known as an inertial flow meter is a device that measures mass flo
  • lds numbers (>10^3 and up beyond 10^9), where inertial flows are the rule, and eddies (vortices) are
  • a nondimensional number showing the ratio of inertial force to viscous force.
  • number for dynamic similarity - the ratio of inertial forces to viscous forces.
  • This represents the ratio of buoyancy and inertial forces, which stands in for the contribution
  • of particles per unit volume in the (unique) inertial frame in which the particles are at rest.
  • omentum frame is the center of mass frame: an inertial frame in which the center of mass (which is a
  • entum frame, or COM frame) of a system is any inertial frame in which the center of mass is at rest
  • To an observer in an inertial frame of reference, the planet Earth is seen
  • erience the same acceleration, relative to an inertial frame or the frame of the large mass.
  • imation available in general relativity to an inertial frame of reference in special relativity.
  • ces of this contraction in the lab frame (the inertial frame of reference of an observer co-moving w
  • See Inertial frame of reference for more discussion on thi
  • See also: Inertial frame of reference and Fictitious force
  • In an inertial frame an observer cannot detect their motion
  • This elimination of the concept of the inertial frame was initially described by Einstein as
  • t a location, but rather defines a particular inertial frame (a velocity and a direction).
  • pears in the free-fall frame, also called the inertial frame), but any g-force "acceleration" will b
  • nd shorter for the other one, and there is no inertial frame, in which the distance is the same for
  • e motion of the carriage by defining it as an inertial frame.
  • al triad is parallel-transported. Nonspinning inertial frames hold a special place in general relati
  • onal motion, so they are at rest in different inertial frames of references.
  • All inertial frames are physically equivalent, in both the
  • As a practical matter, inertial frames often are taken as frames moving unifo
  • ed in the context of the application of local inertial frames to small regions of a gravitational fi
  • s global Lorentz covariance (applying only to inertial frames) to the more general local Lorentz cov
  • In the special case of inertial frames, the Fermi-Walker derivatives reduce t
  • nt of the speed of the apparatus in different inertial frames.
  • own as inertia welding, rotational welding or inertial friction welding.
  • search Coordination Meeting on the Element of Inertial Fusion Energy Power PlantsPDF (4.82 MiB) (Nov
  • Progress on Z-Pinch Inertial Fusion Energy
  • nental ballistic missile, (ICBM) and the AIRS inertial guidance system (INS) that provided its navig
  • The inertial guidance system allows the missile to be used
  • nologies, particularly due to improvements in inertial guidance systems.
  • It includes an inertial guidance system that considerably improves th
  • ion system better than, or comparable to, the inertial guidance systems whose performance was being
  • get Millimeter wave radar seeker coupled with Inertial guidance
  • the original version with nuclear warhead and inertial guidance
  • missile's autopilot then flies a course using inertial guidance toward the target.
  • has a reported accuracy of 350 m CEP using an inertial guidance system coupled with computer payload
  • The Typhon missiles would have inertial guidance and would time share the AN/SPG-59 r
  • The rocket's inertial guidance system failed 153 after launch, and
  • all on-board rocket motors and a computerised inertial guidance system.
  • Like the V-2, the R-11 relied on inertial guidance, and its flight was controlled by fo
  • as evidence that antiparticles have the same inertial mass as their normal counterparts, but a reve
  • tward motion is a consequence of the object's inertial mass and the object's tendency to continue mo
  • ongly suggests that the source, reactant, and inertial mass properties are inseparable, any future e
  • not indicate whether it is the charge or the inertial mass which is inverted.
  • Einstein used the fact that gravitational and inertial mass were equal to begin his Theory of Genera
  • where a is the acceleration of an object with inertial mass mi and passive gravitational mass mp in
  • So, as long as inertial mass and gravitational mass are always equal
  • In other words time and inertial mass are irrelevant.
  • Reduced mass is the "effective" inertial mass appearing in the two-body problem of New
  • This suggestion signifies that the inertial mass should depend on the scalar field.
  • This behavior implies that both have positive inertial mass and opposite charges; if the reverse wer
  • He also proposed the slug as a unit of inertial mass, and the pound-foot as a dedicated unit
  • correspond to the ratio of electric charge to inertial mass.
  • ence has been found between gravitational and inertial mass.
  • The secondary mission payload is a 6-DOF inertial measurement unit that will measure the spacec
  • t engines, and monitoring electronics like an inertial measurement unit that monitors the orientatio
  • ing redundant Sun sensors, star trackers, and inertial measurement units.
  • r name often used interchangeably with IRU is Inertial Measurement Unit.
  • t fleet of 14 robots, and developed their own Inertial Measurement Unit.
  • ne on air- and spacecraft, in order to report inertial measurements to a pilot (whether he is in the
  • e over small regions to the physics of simple inertial mechanics (in this case special relativity) f
  • ed planes led him to the concepts of circular inertial motion and accelerating free-fall.
  • roposals to the effect that the definition of inertial motion depends upon the presence and distribu
  • ructure of spacetime by matter, affecting the inertial motion of other matter.
  • ies that apply the principle of relativity to inertial motion, physics is the same in all inertial f
  • in's natural ability to integrate and analyze inertial motion.
  • In inertial navigation systems, gimbal lock may occur whe
  • rable LIDAR (in the globe on top), GPS and an inertial navigation system.
  • The complex is equipped with an onboard inertial navigation system which gives the TEL group t
  • was removed, as was one of the Sam Houston's inertial navigation systems.
  • l modern nav/attack system is based around an inertial navigation system (INS) that allows the aircr
  • estimating position; for oceanic operations, inertial navigation systems (INS) were employed.
  • and communications outfit, a ring laser gyro inertial navigation system, as well as stealth improve
  • ny tens of thousands of RLGs are operating in inertial navigation systems and have established high
  • SRAM had an inertial navigation system as well as a radar altimete
  • IL-STD 1553B databus; Litton Industries LN-93 inertial navigation system, Ferranti 4510 wide-angle H
  • Sandstorm also has a GPS and an inertial navigation system for determining geographica
  • New navigation systems, including an inertial navigation system and GPS system, were also i
  • he only Hermes to use laser gyroscopes in its inertial navigation system.
  • AHRS differ from traditional inertial navigation systems by attempting to estimate
  • They also built inertial navigation systems for the Fleet of Ballistic
  • SAAF Canberra B12 with inertial navigation and special sensors package over T
  • Unlike an artificial horizon or inertial navigation system, a gyrotheodolite cannot be
  • ed with a 1 MT thermonuclear warhead and used inertial navigation with data link updates.
  • to be provided during mid-course flight by an inertial navigation system, while terminal guidance wo
  • e using an automated guidance system (usually inertial navigation, sometimes supplemented by either
  • Avionics ( inertial navigation, civilian and military avionics, g
  • ere is no means to measure the velocity of an inertial observer with regard to a possible medium of
  • If we take an inertial observer in flat spacetime and have them obse
  • So called non inertial observers are is dealt with in the theory of
  • of relative rest is closely linked to that of inertial observers and the statement that nothing is a
  • uished frames in special relativity represent inertial observers.
  • long with in-flight operation in three modes: inertial orientation, orbital orientation, and survey.
  • Inertial oscillations on the surface of the earth have
  • s also exist; they employ an extremely stable inertial platform to compensate for the masking effect
  • The inertial platform acts as if it were attached to such
  • If such a pendulum were attached to the inertial platform of an inertial navigation system, th
  • assenger system was the ASC-15 and the ST-124 inertial platform.
  • d to the aircraft horizontal, to establish an inertial platform.
  • uum pump or electrical motor) to establish an inertial platform.
  • leration due to gravity acting on the tilting inertial platform.
  • m 2004, this also included other wireless and inertial positioning technologies, and space technique
  • in the flow are generally referred to as the inertial range.
  • An inertial reference unit (IRU) is a type of inertial se
  • ADIRUs are part of the air data inertial reference system, which, on the Airbus is lin
  • rding to which observers at rest in a certain inertial reference frame, cannot measure their own tra
  • elative velocity is independent of the chosen inertial reference frame.
  • w been replaced by Global Navigation Air Data Inertial Reference System (GNADIRS).
  • Decaying inertial reference units has led to a tumble of the ai
  • redundant processing units known as Air Data Inertial Reference Units (ADIRUs) that act both as an
  • und fault with one of the aircraft's Air Data Inertial Reference Units.
  • ensor, a Canopus star tracker, gyroscopes, an inertial reference unit, and an accelerometer.
  • ources in a single unit known as the Air Data Inertial Reference Unit (ADIRU).
  • blem of incorrectly responding to a defective inertial reference.
  • blem of incorrectly responding to a defective inertial reference.
  • parts of the device were at rest in the same inertial references frame - such as the Michelson-Morl
  • r Electronic Transducers (MET) are a class of inertial sensors (which include accelerometers, gyrosc
  • ll motions causing measurable (and low noise) inertial signals.
  • f a gyroscope, to maintain its orientation to inertial space.
  • ncertain but it may indicate that it used the inertial supercharging effect.
  • frame, which is related to the ICRS celestial inertial system by means of very precise Earth Orienta
  • us area has been navigation systems; the ISRO Inertial Systems Unit (IISU) established at Vattiyoork
  • raised to geostationary orbit by means of an Inertial Upper Stage.
  • raised to geostationary orbit by means of an Inertial Upper Stage.
  • raised to geosynchronous orbit by means of an Inertial Upper Stage.
  • perating in near-geosynchronous orbits, using Inertial Upper Stages to get from the shuttle's orbit
  • ay Satellite (TDRS) by means of the two-stage Inertial Upper Stage (IUS) solid rocket.
  • erational geosynchronous orbit by means of an Inertial Upper Stage, which consisted of two solid roc
  • y and boosted into its operating orbit by the Inertial Upper Stage (IUS) booster according to an Air
  • The twin-stage solid-propellent Inertial Upper Stage made two burns.
  • The two-stage solid-propellent Inertial Upper Stage made two burns.
  • the payload bay of Challenger, attached to an Inertial Upper Stage.
  • sfully transferred to its proper orbit by the Inertial Upper Stage booster.
  • ility for DSCS III, NATO IV/Skynet IV and the Inertial Upper Stage booster.
  • ad, the Magellan spacecraft with its attached Inertial Upper Stage (IUS), was successfully deployed