Scientific instrument
A scientific instrument is an instrument used for scientific purposes. Most are measurement instruments. They may be specifically designed, constructed and refined for the purpose. Over time, instruments have become more accurate and precise.
Scientific instruments are part of laboratory equipment, but are considered more sophisticated and more specialized than other measuring instruments as scales, meter sticks, chronometers, thermometers or even waveform generators. They are increasingly based upon the integration of computers to improve and simplify control, enhance and extend instrumental functions, conditions, parameter adjustments and data sampling, collection, resolution, analysis (both during and post-process), storage and retrieval.
Individual instruments can be connected as a local area network (LAN) and can be further integrated as part of a laboratory information management system (LIMS). This can give Internet access to databases of physical properties, for example a peptide spectral library allowing results comparisons and advanced data analysis. Developers have used open source principles to rapidly improve low-cost open-source hardware for scientific measurements and to create open source labs.[1] With the advent of low-cost 3-D printing scientists can manufacture many of their own components.[2][3] The 3-D printers themselves can even be modified to function as research tools (e.g. fluid handling).[4]
Some scientific instruments can be quite large in size, like particle colliders or radio-telescope antennas and antenna arrays that are miles or kilometers wide. The converse or nanoscale also has been applied, with much of the activity centered on nanomedicine, particularly as non-invasive medical imaging has exploded on the diagnostic arts and minimally invasive surgery and surgical robotics have come into use. Instruments on the scale of a single molecule may soon interact with our bodies at the cellular and biochemical level to collect diagnostic information and provide accurate drug delivery mechanisms.
Scientific instruments can be found on board sounding rockets, satellites or planetary rovers and controlled by radio telecommunication.
List of scientific instruments
- Accelerometer, physical, acceleration
- Ammeter, electrical, Amperage, current
- Anemometer, wind speed.
- Caliper, distance
- Calorimeter, heat
- DNA sequencer, molecular biology
- Dynamometer, torque
- Electrometer, electric charge, potential difference
- Electroscope, electric charge
- Electrostatic analyzer, Kinetic energy of charged particles
- Ellipsometer, optical refractive indices
- Gravimeter, gravity
- Hydrometer
- Inclinometer, slope
- Interferometer, optics, infrared light spectra
- Magnetograph, magnetic field
- Magnetometer, magnetic flux
- Manometer, air pressure
- Mass spectrometer, compound identification/characterization
- Micrometer, distance
- Microscope, optical magnification
- NMR spectrometer, chemical compound identification, medical diagnostic imaging
- Ohmmeter, electrical resistance/impedance
- Oscilloscope, electric signal voltage, amplitude, wavelength, frequency, waveform shape/pattern
- Seismometer, acceleration
- Spectrogram, sound frequency, wavelength, amplitude
- Spectrometer, light frequency, wavelength, amplitude
- Telescope, light magnification (astronomy)
- Thermometer, temperature measurement
- Time-of-flight mass spectrometer, see mass spectrometee
- Theodolite, angles, surveying
- Thermocouple, temperature
- Voltmeter, voltage
- Eudiometer, gas volume
List of scientific instruments manufacturers
- 454 Life Sciences, United States of America
- ADInstruments, New Zealand
- Agilent Technologies, United States of America
- A. Reyrolle & Company
- Beckman Coulter, United States of America
- Bruker Biosciences Corporation
- Cambridge Scientific Instrument Company, United Kingdom
- Horiba, Japan
- JEOL, Japan
- LECO Corporation, United States of America
- Markes International, United Kingdom
- Malvern Instruments, United Kingdom
- McPherson Inc, United States of America
- Mettler Toledo, Switzerland / United States of America
- MTS Systems Corporation, USA, mechanical
- Novacam Technologies, Canada
- Oxford Instruments, United Kingdom
- Pall Corp., United States of America
- Practichem, Unisted States of America
- PerkinElmer, United States of America
- Polymer Char, Spain
- Shimadzu Corp., Japan
- Techtron, Melbourne, Australia
- Thermo Fisher Scientific, United States of America
- Waters Corporation, United States of America
List of scientific instruments designers
- Jones, William
- Kipp, Petrus Jacobus
- Le Bon, Gustave
- Roelofs, Arjen
- Schöner, Johannes
- Von Reichenbach, Georg Friedrich
History of scientific instruments
Museums
- Boerhaave Museum
- Chemical Heritage Foundation
- Deutsches Museum
- Royal Victoria Gallery for the Encouragement of Practical Science
- Whipple Museum of the History of Science
Types of scientific instruments
See also
- Instrumentation
- Instrumentalism, a philosophic theory
- List of collectibles
See also
- tron, a suffix to denote a complex scientific instrument, like in cyclotron, phytotron, synchrotron, ...
References
- ↑ Pearce, Joshua M. 2012. “Building Research Equipment with Free, Open-Source Hardware.” Science 337 (6100): 1303–1304.open access
- ↑ Baden, T., Chagas, A.M., Gage, G., Marzullo, T., Prieto-Godino, L.L. and Euler, T., 2015. Open Labware: 3-D printing your own lab equipment. PLoS Biol, 13(3), p.e1002086.
- ↑ Zhang, C., Anzalone, N.C., Faria, R.P. and Pearce, J.M., 2013. Open-source 3D-printable optics equipment. PloS one, 8(3), p.e59840.
- ↑ Chenlong Zhang, Bas Wijnen, Joshua M. Pearce. Open-source 3-D Platform for Low-cost Scientific Instrument Ecosystem. Journal of Laboratory Automation 21(4) 517-525 (2016). DOI: 10.1177/2211068215624406