Will “Electrodynamicist” be Replaced By Robots? 🤔

Job Description

Conduct research into physical phenomena, develop theories on the basis of observation and experiments, and devise methods to apply physical laws and theories.

Job Details

• The SOC (Standard Occupational Classification) code is 19-2012.00
• The Mean Annual Wage in the U.S. is $ 121,770.00
• The Mean Hourly Wage is $ 58.00
• Currently, there are 16,680 people on this job

☝️ Information based on the reference occupation “Physicists”.

Also Known As…

• Physicists
• Scientist
• Research Scientist
• Research Physicist
• Research Consultant
• Physicist
• Health Physicist
• Biophysics Scientist
• Weapons Engineer
• Weapons Designer
• Thermodynamicist
• Thermodynamic Physicist
• Theoretical Physicist
• Space Physicist
• Scientist Electronics
• Rocket Scientist
• Rheologist
• Research Professor
• Radiation Protection Technician
• Radiation Control Health Physicist
• Physics Professor
• Physical Aerodynamicist
• Optical Scientist
• Optical Instrument Specialist
• Nuclear Spectroscopist
• Nuclear Scientist
• Nuclear Physicist
• Nanotechnologist
• Molecular Spectroscopist
• Molecular Physicist
• Medical Physicist
• Mathematical Physicist
• Mass Spectroscopist
• Laser Engineer
• Fluid Dynamicist
• Experimental Physicist
• Electro-Optical Engineer
• Electro Optical Engineer
• Consultant Electronics
• Cloud Physicist
• Atomic Spectroscopist
• Atmospheric Physicist
• Astrophysicist
• Aerophysicist
• Aerodynamicist

Tasks for “Electrodynamicist”

• Report experimental results by writing papers for scientific journals or by presenting information at scientific conferences.
• Analyze data from research conducted to detect and measure physical phenomena.
• Develop theories and laws on the basis of observation and experiments, and apply these theories and laws to problems in areas such as nuclear energy, optics, and aerospace technology.
• Develop manufacturing, assembly, and fabrication processes of lasers, masers, infrared, and other light-emitting and light-sensitive devices.
• Perform complex calculations as part of the analysis and evaluation of data, using computers.
• Design computer simulations to model physical data so that it can be better understood.
• Describe and express observations and conclusions in mathematical terms.
• Teach physics to students.
• Conduct research pertaining to potential environmental impacts of atomic energy-related industrial development to determine licensing qualifications.
• Direct testing and monitoring of contamination of radioactive equipment, and recording of personnel and plant area radiation exposure data.
• Observe the structure and properties of matter, and the transformation and propagation of energy, using equipment such as masers, lasers, and telescopes to explore and identify the basic principles governing these phenomena.
• Conduct application evaluations and analyze results to determine commercial, industrial, scientific, medical, military, or other uses for electro-optical devices.
• Advise authorities of procedures to be followed in radiation incidents or hazards, and assist in civil defense planning.
• Develop standards of permissible concentrations of radioisotopes in liquids and gases.
• Collaborate with other scientists in the design, development, and testing of experimental, industrial, or medical equipment, instrumentation, and procedures.

Related Technology & Tools

• Laboratory box furnaces
• Fourier transform infrared FTIR spectrometers
• High-speed video cameras
• Diffusion-pumped vacuum systems
• Vernier force sensors
• Scanning monochromators
• Programmable phase modulators
• Power amplifiers
• X ray photoemission spectrometers
• Headspace autosamplers
• High intensity UV sources
• Magnetic force microscopes
• Vacuum stations
• Semiconductor parameter analyzers
• Optical detectors
• High vacuum equipment
• Optical beamsplitting devices
• Ionization chambers
• Arbitrary function generators
• Pinhole filters
• Mass spectrometers
• Radiation detecting film badges
• Annealing furnaces
• Gas chromatography equipment
• Spectrophotometers
• Atomic force microscopes
• Laboratory centrifugal pumps
• Microwave interferometers
• Sound intensity probes
• Laboratory tube furnaces
• Personal computers
• Portable fast Fourier transform FFT analyzers
• Gaussmeters
• Analog frequency analyzers
• Argon ion lasers
• Big G torsion balances
• Gamma ray spectrometers
• Double monochromators
• Photon counting systems
• Atomic emission detectors AED
• Particle counters
• Positive ion accelerators
• Safety goggles
• Surface profilometers
• Gas chromatography GC injectors
• Digital voltmeters DVM
• Diode lasers
• Photometers
• Leak detection equipment
• Helium refrigerators
• Digital multimeters
• Measuring microscopes
• Charge-coupled device CCD cameras
• Turbo-pumped vacuum systems
• Cryostats
• Magnetic resonance imaging MRI systems
• Liquid helium level sensors
• Cavity dumpers or drivers
• High-resolution spectrometers
• Atomic absorption AA spectrometers
• Two-channel fast Fourier transform FFT analyzers
• Betatrons
• Laptop computers
• Mickelson interferometers
• Two-channel dynamic signal analyzers
• Transmission electron microscopes TEM
• Friction-force microscopes
• Two-channel network analyzers
• Geiger-Muller counters
• Capacitance bridges
• Multiple diode lasers
• Pulsed nitrogen lasers
• Monochromators
• Radiofrequency RF generators
• Galvanostats
• Digital oscilloscopes
• Prism spectrometers
• Spectrum analyzers
• Neutron detectors
• Scanning electron microscopes SEM
• X ray crystallography equipment
• Signal generators
• Scintillation probes
• Optical tweezers
• Single frequency dye lasers
• Nuclear magnetic resonance NMR spectroscopes
• Scanning tunneling microscopes STM
• Interferometers
• Visible spectrometers
• Cyclotrons
• Function generators
• High-resolution semiconductor detectors
• Analog sound level meters
• Vibrating sample magnetometers
• Linear accelerators
• Spring scales
• Digital sound level meters
• Digital plotters
• Conditioning amplifiers
• Computed tomography CT scanners
• Laser power meters
• Analytical balances
• Zeeman split lasers
• Telescopes
• Vibration exciters
• Nanovoltmeters
• Pistonphones
• Optical choppers
• Isotope ratio mass spectrometers
• Electron microscopes
• Diffusion pumps
• Helium lasers
• Laboratory electromagnets
• Grating monochromators
• Light scattering devices
• High-energy accelerators
• Desktop computers
• Thermoluminescent dosimeters
• Accelerometers
• Optical tables
• Photodetectors

• Formula translation/translator FORTRAN
• Microsoft Visual J++
• Criss Software XRF11
• XV
• REDUCE
• Spectroscopy software
• Synergy Software KaleidaGraph
• Sun Microsystems Java
• Adobe Systems Adobe Audition
• Radiation dose calculation software
• Microsoft Excel
• The MathWorks MATLAB
• Assembler
• UNIX
• COMSOL Multiphysics
• Autodesk AutoCAD
• C
• Linux
• Microsoft Word
• SciLab
• Microsoft Office
• Systat Software SigmaPlot
• Video analysis software
• Python
• Ploticus
• RSI interactive data language IDL software
• National Instruments LabVIEW
• Aptech Systems GAUSS
• Microsoft Visual C++
• Scribus
• Microsoft Visual Basic
• Vector Fields OPERA-3d
• Statistical software
• CERN ROOT
• Gnuplot
• Adobe Systems Adobe Photoshop
• CERN Physics Analysis Workstation PAW
• Spectral Dynamics STAR
• JavaScript
• GNU Image Manipulation Program GIMP
• Lenox Softworks VideoPoint
• SciGraphica
• GNU Octave
• Pascal
• Wolfram Research Mathematica
• SQLite
• MySQL
• Microsoft Access
• Mathsoft Mathcad
• Practical extraction and reporting language Perl
• RibbonSoft QCad
• OriginLab Origin
• Experimental Physics and Industrial Control System EPICS
• Xfig
• Microsoft PowerPoint
• Maplesoft Maple
• Dose modeling software