Scientific instrument

Template:Short description Template:Broader A scientific instrument is a device or tool used for scientific purposes, including the study of both natural phenomena and theoretical research.<ref name="HackmannReaders13">Template:Cite book</ref>

HistoryEdit

Historically, the definition of a scientific instrument has varied, based on usage, laws, and historical time period.<ref name="HackmannReaders13" /><ref name="Warner">Template:Cite journal</ref><ref name="FR71USvsPresb">Template:Cite journal</ref> Before the mid-nineteenth century such tools were referred to as "natural philosophical" or "philosophical" apparatus and instruments, and older tools from antiquity to the Middle Ages (such as the astrolabe and pendulum clock) defy a more modern definition of "a tool developed to investigate nature qualitatively or quantitatively."<ref name="HackmannReaders13" /><ref name="FR71USvsPresb" /> Scientific instruments were made by instrument makers living near a center of learning or research, such as a university or research laboratory. Instrument makers designed, constructed, and refined instruments for purposes, but if demand was sufficient, an instrument would go into production as a commercial product.<ref name="TurnerEarly87">Template:Cite book</ref><ref name="BediniEarly64">Template:Cite book</ref>

In a description of the use of the eudiometer by Jan Ingenhousz to show photosynthesis, a biographer observed, "The history of the use and evolution of this instrument helps to show that science is not just a theoretical endeavor but equally an activity grounded on an instrumental basis, which is a cocktail of instruments and techniques wrapped in a social setting within a community of practitioners. The eudiometer has been shown to be one of the elements in this mix that kept a whole community of researchers together, even while they were at odds about the significance and the proper use of the thing."<ref>Geerdt Magiels (2009) From Sunlight to Insight. Jan IngenHousz, the discovery of photosynthesis & science in the light of ecology, page 231, VUB Press Template:ISBN</ref>

By World War II, the demand for improved analyses of wartime products such as medicines, fuels, and weaponized agents pushed instrumentation to new heights.<ref name="MukhopadhyayTheRise08">Template:Cite journal</ref> Today, changes to instruments used in scientific endeavors—particularly analytical instruments—are occurring rapidly, with interconnections to computers and data management systems becoming increasingly necessary.<ref name="McMahonAnal07">Template:Cite book</ref><ref name="KhandpurHandbook15">Template:Cite book</ref>

ScopeEdit

Scientific instruments vary greatly in size, shape, purpose, complication and complexity. They include relatively simple laboratory equipment like scales, rulers, chronometers, thermometers, etc. Other simple tools developed in the late 20th century or early 21st century are the Foldscope (an optical microscope), the SCALE(KAS Periodic Table),<ref name=ShadabKAS17>Template:Cite journal</ref> the MasSpec Pen (a pen that detects cancer), the glucose meter, etc. However, some scientific instruments can be quite large in size and significant in complexity, like particle colliders or radio-telescope antennas. Conversely, microscale and nanoscale technologies are advancing to the point where instrument sizes are shifting towards the tiny, including nanoscale surgical instruments, biological nanobots, and bioelectronics.<ref name="OsianderMicro16">Template:Cite book</ref><ref name="JamesNeuron15">Template:Cite book</ref>

The digital eraEdit

Instruments are increasingly based upon integration with computers to improve and simplify control; enhance and extend instrumental functions, conditions, and parameter adjustments; and streamline data sampling, collection, resolution, analysis (both during and post-process), and storage and retrieval. Advanced instruments can be connected as a local area network (LAN) directly or via middleware and can be further integrated as part of an information management application such as a laboratory information management system (LIMS).<ref name="WilkesIntegration94solygtj">Template:Cite journal</ref><ref name="CarvalhoIntegration13">Template:Cite journal</ref> Instrument connectivity can be furthered even more using internet of things (IoT) technologies, allowing for example laboratories separated by great distances to connect their instruments to a network that can be monitored from a workstation or mobile device elsewhere.<ref name="PerkelTheInternet17">Template:Cite journal</ref>