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1 electromagnetic-wave equations
n plELEC, PHYS, RAD PHYS, WAVE PHYS ecuaciones de las ondas electromagnéticas f plEnglish-Spanish technical dictionary > electromagnetic-wave equations
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2 electromagnetic
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3 equation
- approximate equationequation of time — уравнение для определения разности между кажущимся и средним солнечным временем
- behavioral equation
- Benjamen-Ono equation
- Benny-Roskes-Davey-Stewartson equation
- Bethe-Salpeter equation
- biquadratic equation
- Boltzmann equation
- Boolean equation
- Boussinesq equation
- branch equation
- canonical equation
- characteristic equation
- charge-transport equation
- Child-Langmuir equation
- Child-Langmuir-Schottky equation
- chiral field equation
- chord equation
- class equation
- color equation
- consistent equations
- constraint equation
- continuity equation
- cubic equation
- cut-set equation
- design equation
- difference equation
- differential equation
- differential equation of n-th order
- diffusion equation
- diode equation
- Diophantine equations
- Dirac equation
- discretized equation
- drift equation
- Duffing equation
- eigenvalue equation
- eikonal equation
- electromagnetic field equations
- elliptic equation
- envelope equation
- equilibrium equation
- estimator-defining equation
- estimator-generating equation
- Euler equation
- evolutionary equation
- exactly identified equation
- exactly integrated equation
- finite-difference equation
- fluid equation
- Fokker-Planck equation
- Fredholm integral equation
- free-space radar equation
- function equation
- fuzzy equation
- Gelfand-Levitan equation
- Hill equation
- Hirota equation
- homogeneous equation
- hyperbolic equation
- identical equation
- inconsistent equations
- integer equation
- integrable equation
- integral equation
- integral equation of n-th kind
- integro-differential equation
- interpolation equation
- Josephson equation
- Kadomtsev-Petviashvili equation
- kinetic equation
- Korteweg-deVries equation
- Kuramoto-Sivashinsky equation
- Landau-Lifschitz equation
- Langevine's equation
- Laplace equation
- Lax equation
- likelihood equations
- linear equation
- linearized equation
- logic equation
- logistic equation
- Londons' equations
- Lorentz equation
- Lorentz force equation
- Lorentz equation
- Lorentz-Abragam force equation
- Lotka-Volterra equation
- mass-energy equation
- Mathieu equation
- matrix equation
- Maxwell's equations
- micromagnetic equation
- moment equations
- motion equation
- non-integrable equation
- nonlinear equation
- nonlinear Schrödinger equation
- normal equations
- numerical equation
- one-fluid equation
- operator equation
- over-identified equation
- parabolic equation
- parametric equation
- partial differential equation
- path equation
- Poisson's equation
- quadratic equation
- quartic equation
- quintic equation
- radar range equation
- Rayleigh equation
- recurrence equations
- register-transfer equation
- regression equation
- resolvent equation
- response equation
- Richardson equation
- scalar equation
- Schrödinger equation
- secular equation
- Sellmeier equation
- simultaneous equations
- sin-Gordon equation
- solvable equation
- stationary Schrödinger equation
- steady-state equation
- syntax equation
- telegrapher's equation
- tensor equation
- three-halves power equation
- transient equation
- transport equation
- trend equation
- trigonometric equation
- unsolvable equation
- unstable wave envelope equation
- van der Pol equation
- variational equation
- vector equation
- wave equation
- Yule-Walker equations
- Zakharov equation -
4 equation
- approximate equationequation of time — уравнение для определения разности между кажущимся и средним солнечным временем
- behavioral equation
- Benjamen-Ono equation
- Benny-Roskes-Davey-Stewartson equation
- Bethe-Salpeter equation
- biquadratic equation
- Boltzmann equation
- Boolean equation
- Boussinesq equation
- branch equation
- canonical equation
- characteristic equation
- charge-transport equation
- Child-Langmuir equation
- Child-Langmuir-Schottky equation
- chiral field equation
- chord equation
- class equation
- color equation
- consistent equations
- constraint equation
- continuity equation
- cubic equation
- cut-set equation
- design equation
- difference equation
- differential equation of n-th order
- differential equation
- diffusion equation
- diode equation
- Diophantine equations
- Dirac equation
- discretized equation
- drift equation
- Duffing equation
- eigenvalue equation
- eikonal equation
- electromagnetic field equations
- elliptic equation
- envelope equation
- equilibrium equation
- estimator-defining equation
- estimator-generating equation
- Euler equation
- evolutionary equation
- exactly identified equation
- exactly integrated equation
- finite-difference equation
- fluid equation
- Fokker-Planck equation
- Fredholm integral equation
- free-space radar equation
- function equation
- fuzzy equation
- Gelfand-Levitan equation
- Hill equation
- Hirota equation
- homogeneous equation
- hyperbolic equation
- identical equation
- inconsistent equations
- integer equation
- integrable equation
- integral equation of n-th kind
- integral equation
- integro-differential equation
- interpolation equation
- Josephson equation
- Kadomtsev-Petviashvili equation
- kinetic equation
- Korteweg-deVries equation
- Kuramoto-Sivashinsky equation
- Landau-Lifschitz equation
- Langevine's equation
- Laplace equation
- Lax equation
- likelihood equations
- linear equation
- linearized equation
- logic equation
- logistic equation
- Londons' equations
- Lorentz equation
- Lorentz force equation
- Lorentz-Abragam force equation
- Lotka-Volterra equation
- mass-energy equation
- Mathieu equation
- matrix equation
- Maxwell's equations
- micromagnetic equation
- moment equations
- motion equation
- non-integrable equation
- nonlinear equation
- nonlinear Schrödinger equation
- normal equations
- numerical equation
- one-fluid equation
- operator equation
- over-identified equation
- parabolic equation
- parametric equation
- partial differential equation
- path equation
- Poisson's equation
- quadratic equation
- quartic equation
- quintic equation
- radar range equation
- Rayleigh equation
- recurrence equations
- register-transfer equation
- regression equation
- resolvent equation
- response equation
- Richardson equation
- scalar equation
- Schrödinger equation
- secular equation
- Sellmeier equation
- simultaneous equations
- sin-Gordon equation
- solvable equation
- stationary Schrödinger equation
- steady-state equation
- syntax equation
- telegrapher's equation
- tensor equation
- three-halves power equation
- transient equation
- transport equation
- trend equation
- trigonometric equation
- unsolvable equation
- unstable wave envelope equation
- van der Pol equation
- variational equation
- vector equation
- wave equation
- Yule-Walker equations
- Zakharov equationThe New English-Russian Dictionary of Radio-electronics > equation
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5 equation
1) уравнивание; выравнивание2) уравнение3) равенство•equationsoluble by radicals — уравнение, разрешимое в радикалахequation of the first degree — уравнение первой степени, линейное уравнениеequation of the second degree — уравнение второй степени, квадратное уравнение-
affected equation
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algebraic equation
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approximate equation
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axial momentum equation
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backward equation
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balance equation
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beam equation
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Bernoulli differential equation
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Bernoulli equation
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binomial equation
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biquadratic equation
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Boolean equation
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boundary layer equation
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canonical equation
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characteristic equation
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chemical equation
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Child-Langmuir equation
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Clapeyron equation
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closing equation
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closure equation
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color equation
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combined equation
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combustion equation
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common reduced equation of state
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compatibility equation
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consistent equations
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constitutive equation
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continuity equation
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continuous forecast equation
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correlating equation
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cubic equation
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current equation
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Darcy-Weisbach equation
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defining equation
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deorbit equation
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dependent equation
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design equation
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diagnostic equation
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difference equation
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difference-difference equation
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differential equation of mixed type
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differential equation with a small parameter
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differential equation with constant coefficients
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differential equation with delayed argument
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differential equation
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diffusion equation
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diffusion-convection equation
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dispersion equation
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disturbed equation
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Dittus-Boelter equation
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downlink equation
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dynamic system equations
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Egloff's equation
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eigenvalue equation
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electric field integral equations
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electromagnetic field equations
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elliptical equation
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elliptic equation
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empirical equation
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energy equation
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energy-balance equation
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enthalpy potential equation
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equilibrium equation
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equivalent equations
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error equation
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exact differential equation
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field equation
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finite-difference equation
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first-law equation
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fitted equation
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flow equation
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fluid equation
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Fokker-Planck equation
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forward equation
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Fourier equation
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free-space radar equation
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Frohlich equation
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functional equation
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fundamental equation
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gas equation
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generalized equation
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governing equation
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heat conduction equation
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heat flow equation
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heat transfer equation
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heat-balance equation
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homogeneous equation
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hydrodynamic equations
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hyperbolic-type equation
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hyperbolic equation
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image equation
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inconsistent equations
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incremental equation
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independent equation
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in-hour equation
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integral equation
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intercept equation
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interminate equation
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ionic equation
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irrational equation
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kinematic equations
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kinetic equation
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Lagrange's equations of motion
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Lagrange's equations
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Lame's equation
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Laplace's equation
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lens equation
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lidar equation
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likelihood equation
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linear equation
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link equation
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logarithmical equation
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logarithmic equation
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logical equation
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loop-current equation
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magnetic field integral equations
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Manning equation
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matrix equation
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Maxwell's equations
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mesh-current equation
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minority carrier diffusion equation
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momental equation
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momentum conservation equation
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momentum equation
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Napier's equation
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natural equation
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neutron-balance equation
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neutron-kinetics equation
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nodal-voltage equation
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nonhomogeneous equation
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nonlinear equation
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nonrationalized equation
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normal equation
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numerical equation
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operator equation
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ordinary differential equation
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overall equation
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parabolic equation
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parametric equation
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partial differential equation
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perturbation equation
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primitive equation
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probability forecast equation
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prognostic equation
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propagation equation
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quadratic equation
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quantity equation
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quartic equation
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quintic equation
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radar equation
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radar range equation
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radiative transfer equation
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radical equation
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rationalized equation
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reduced equation
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regression equation
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relaxation equation
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reorbit equation
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resonance equation
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retarded equation
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Reynolds equation
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rosette equations
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scalar equation
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secular equation
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separated-type equation
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sextic equation
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shallow-water equation
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simultaneous equations
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sintering equation
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solubility equation
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sonar equation
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storage equation
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stress equation of motion
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stress equilibrium equation
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surface integral equation
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temperature variance equation
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thermal conductivity equation
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thermal noise equation
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thermal-transport equation
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three-halves power equation
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three-moment equation
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total differential equation
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transcedental equation
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transport equation
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transverse momentum equation
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trigonometrical equation
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trigonometric equation
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uplink equation
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Van der Waals equation
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variational equation
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water-balance equation
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wave equation
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wear equation
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Wiener-Hopf equation
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WLF equation
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working equation -
6 system
1) система || системный3) вчт операционная система; программа-супервизор5) вчт большая программа6) метод; способ; алгоритм•system halted — "система остановлена" ( экранное сообщение об остановке компьютера при наличии серьёзной ошибки)
- CPsystem- H-system- h-system- hydrogen-air/lead battery hybrid system- Ksystem- Lsystem- L*a*b* system- master/slave computer system- p-system- y-system- Δ-system -
7 Hertz, Heinrich Rudolph
[br]b. 22 February 1857 Hamburg, Germanyd. 1 January 1894 Bonn, Germany[br]German physicist who was reputedly the first person to transmit and receive radio waves.[br]At the age of 17 Hertz entered the Gelehrtenschule of the Johaneums in Hamburg, but he left the following year to obtain practical experience for a year with a firm of engineers in Frankfurt am Main. He then spent six months at the Dresden Technical High School, followed by year of military service in Berlin. At this point he decided to switch from engineering to physics, and after a year in Munich he studied physics under Helmholtz at the University of Berlin, gaining his PhD with high honours in 1880. From 1883 to 1885 he was a privat-dozent at Kiel, during which time he studied the electromagnetic theory of James Clerk Maxwell. In 1885 he succeeded to the Chair in Physics at Karlsruhe Technical High School. There, in 1887, he constructed a rudimentary transmitter consisting of two 30 cm (12 in.) rods with metal balls separated by a 7.5 mm (0.3 in.) gap at the inner ends and metallic plates at the outer ends, the whole assembly being mounted at the focus of a large parabolic metal mirror and the two rods being connected to an induction coil. At the other side of his laboratory he placed a 70 cm (27½ in.) diameter wire loop with a similar air gap at the focus of a second metal mirror. When the induction coil was made to create a spark across the transmitter air gap, he found that a spark also occurred at the "receiver". By a series of experiments he was not only able to show that the invisible waves travelled in straight lines and were reflected by the parabolic mirrors, but also that the vibrations could be refracted like visible light and had a similar wavelength. By this first transmission and reception of radio waves he thus confirmed the theoretical predictions made by Maxwell some twenty years earlier. It was probably in his experiments with this apparatus in 1887 that Hertz also observed that the voltage at which a spark was able to jump a gap was significantly reduced by the presence of ultraviolet light. This so-called photoelectric effect was subsequently placed on a theoretical basis by Albert Einstein in 1905. In 1889 he became Professor of Physics at the University of Bonn, where he continued to investigate the nature of electric discharges in gases at low pressure until his death after a long and painful illness. In recognition of his measurement of radio and other waves, the international unit of frequency of an oscillatory wave, the cycle per second, is now universally known as the Hertz.[br]Principal Honours and DistinctionsRoyal Society Rumford Medal 1890.BibliographyMuch of Hertz's work, including his 1890 paper "On the fundamental equations of electrodynamics for bodies at rest", is recorded in three collections of his papers which are available in English translations by D.E.Jones et al., namely Electric Waves (1893), Miscellaneous Papers (1896) and Principles of Mechanics (1899).Further ReadingJ.G.O'Hara and W.Pricha, 1987, Hertz and the Maxwellians, London: Peter Peregrinus. J.Hertz, 1977, Heinrich Hertz, Memoirs, Letters and Diaries, San Francisco: San Francisco Press.R.Appleyard, 1930, Pioneers of Electrical Communication.See also: Heaviside, OliverKFBiographical history of technology > Hertz, Heinrich Rudolph
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