inertial load - ορισμός. Τι είναι το inertial load
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Τι (ποιος) είναι inertial load - ορισμός

Inertial waves; Inertial oscillation

Inertial navigation system         
  •  Comparison of accuracy of various navigation systems. The radius of the circle indicates the accuracy. A smaller radius corresponds to a higher accuracy.
  • S3]].
  • The quartz rate sensor inside an [https://web.archive.org/web/20100419014447/http://en.wikipedia.org/wiki/E-Sky_Lama_model_helicopters E-Sky] model helicopter
  • 600px
  • Principle of open loop [[accelerometer]]. Acceleration in the upward direction causes the mass to deflect downward.
  • Ring laser gyroscope
  • MEMS gyroscope
  • 190px
CONTINUOUSLY COMPUTED DEAD RECKONING
Inertial navigation; Inertial guidance; Strapdown; Inertial tracking device; Sdins; SDINS; Inertial reference system; Inertial Navigation System; Inertial navigation unit; Inertial Navigation; Inertial Reference System; Inertial guidance system; Fluid-suspended gyrostabilized platform; Gimballed gyrostabilized platform; Strapdown inertial navigation; Strapdown inertial guidance; History of inertial navigation; Inertial motion tracking; Inertial positioning system
An inertial navigation system (INS) is a navigation device that uses motion sensors (accelerometers), rotation sensors (gyroscopes) and a computer to continuously calculate by dead reckoning the position, the orientation, and the velocity (direction and speed of movement) of a moving object without the need for external references. Often the inertial sensors are supplemented by a barometric altimeter and sometimes by magnetic sensors, (magnetometers) and/or speed measuring devices.
Load (computing)         
  • [[htop]] displaying a significant computing load (top right: ''Load average:'')
AMOUNT OF COMPUTATIONAL WORK PERFORMED
Load average; Unix load average; System load; Load Averages; Load averages; Load Average; System load average; Load times; Loadavg; IOtop (Unix); Load (Unix)
In UNIX computing, the system load is a measure of the amount of computational work that a computer system performs. The load average represents the average system load over a period of time.
Inertial confinement fusion         
  • The Electra Laser at the Naval Research Laboratory demonstrated more than 90,000 shots over 10 hours at 700 joules.<ref>Obenschain, Stephen, et al. "High-energy krypton fluoride lasers for inertial fusion." Applied optics 54.31 (2015): F103-F122.</ref>
  • Plot of NIF results from 2012 to 2021. The high output on the right is due to the energy released by a fusion burn propagating through the fuel. The laser input is roughly the same in all of these shots, so the much higher output represents a significantly higher ''gain''.
  • National Ignition Facility target chamber
BRANCH OF FUSION ENERGY RESEARCH
Inertial fusion energy; Laser fusion; Inertial confinement; Laser inertial confinement; Inertial Fusion Energy; 4 pi laser; Inertial fusion; D-D Inertial Fusion; User:Warlord10327!/D-D Inertial Fusion
Inertial confinement fusion (ICF) is a fusion energy research program that initiates nuclear fusion reactions by compressing and heating targets filled with thermonuclear fuel. In modern machines, the targets are small spherical pellets about the size of a pinhead typically containing a mixture of about 10 milligrams of deuterium 2H and tritium 3H.

Βικιπαίδεια

Inertial wave

Inertial waves, also known as inertial oscillations, are a type of mechanical wave possible in rotating fluids. Unlike surface gravity waves commonly seen at the beach or in the bathtub, inertial waves flow through the interior of the fluid, not at the surface. Like any other kind of wave, an inertial wave is caused by a restoring force and characterized by its wavelength and frequency. Because the restoring force for inertial waves is the Coriolis force, their wavelengths and frequencies are related in a peculiar way. Inertial waves are transverse. Most commonly they are observed in atmospheres, oceans, lakes, and laboratory experiments. Rossby waves, geostrophic currents, and geostrophic winds are examples of inertial waves. Inertial waves are also likely to exist in the molten core of the rotating Earth.