Also found in: Medical, Encyclopedia, Wikipedia.


n. (used with a sing. verb)
The study of moving electric charges and their interaction with magnetic and electric fields.

e·lec′tro·dy·nam′ic adj.


1. (Electrical Engineering) operated by an electromotive force between current-carrying coils: an electrodynamic wattmeter.
2. (Electrical Engineering) of or relating to electrodynamics


(ɪˌlɛk troʊ daɪˈnæm ɪk)

also e•lec`tro•dy•nam′i•cal,

1. pertaining to the force of electricity in motion.
2. pertaining to electrodynamics.


[ɪˌlektrəʊdaɪˈnæmɪk] ADJelectrodinámico
Mentioned in ?
References in periodicals archive ?
Tenders are invited for Electrodynamic vibration stand for vibration, fatigue and modal tests with control system, sensors and cables Eligibility Criteria : Total estimated purchase cost
com/japanese-space-debris-collector-jaxas-kounotori6-fails-deploy-junk-fishing-net-2487001) electrodynamic tether with an especially designed net was sent into space by Japan's space agency JAXA in December 2016, but it failed to deploy.
The author [2] describes the electrodynamic processes under metal cylinder heating and numerical values obtained coinciding with the experimental data.
He does not formulate partial theories of special relativity, but by explaining Minkowski spacetime, provides a prolegomenon to the comprehension of partial theories of special relativity such as the mechanics of point particles, or of continua, electrodynamic, thermodynamic, and so on.
The company has five servohydraulic load frames, along with two Metravib electrodynamic testing machines that are capable of dynamic characterization of elastomeric parts, as well as stroke and load control fatigue testing.
Jennova has been dedicated to the development of electrodynamic energy harvesting (EH) methods for the past seven years," explained Terry Pennisi.
ClearSign Combustion's patented Duplex and Electrodynamic Combustion Control platform technologies enhance the performance of combustion systems in a broad range of markets, including the chemical, petrochemical, refinery, power and commercial/industrial boiler industries.
Thus in [3], various electrodynamic wave equations were considered.
While they lack the bandwidth potential of an electrodynamic exciter, development of dual-stage valves made it possible to achieve frequency response on the order of 500 Hz, which is acceptable for defining many environments.
Electrodynamic thrusters for aircraft--if they work--would encompass the entire vehicle, he said.
Applications of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems