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An operational definition specifies concrete, replicable procedures designed to represent a construct. In the words of American psychologist S.S. Stevens (1935), "An operation is the performance which we execute in order to make known a concept." For example, an operational
definition A definition is a statement of the meaning of a term (a word, phrase, or other set of symbols). Definitions can be classified into two large categories: intensional definitions (which try to give the sense of a term), and extensional definitio ...
of "fear" (the construct) often includes measurable physiologic responses that occur in response to a perceived threat. Thus, "fear" might be operationally defined as specified changes in heart rate, galvanic skin response, pupil dilation, and blood pressure.


Overview

An operational definition is designed to model or represent a concept or theoretical definition, also known as a construct. Scientists should describe the operations (procedures, actions, or processes) that define the concept with enough specificity such that other investigators can replicate their research. Operational definitions are also used to define system states in terms of a specific, publicly accessible process of preparation or validation testing. For example, 100 degrees Celsius may be operationally defined as the process of heating water at sea level until it is observed to boil. A cake can be operationally defined by a cake recipe.


Application

Despite the controversial philosophical origins of the concept, particularly its close association with
logical positivism Logical positivism, later called logical empiricism, and both of which together are also known as neopositivism, is a movement in Western philosophy whose central thesis was the verification principle (also known as the verifiability criterion o ...
, operational definitions have undisputed practical applications. This is especially so in the social and medical sciences, where operational definitions of key terms are used to preserve the unambiguous empirical testability of hypothesis and theory. Operational definitions are also important in the physical sciences.


Philosophy

The ''Stanford Encyclopedia of Philosophy'' entry on scientific realism, written by Richard Boyd, indicates that the modern concept owes its origin in part to Percy Williams Bridgman, who felt that the expression of scientific concepts was often abstract and unclear. Inspired by
Ernst Mach Ernst Waldfried Josef Wenzel Mach ( , ; 18 February 1838 – 19 February 1916) was a Moravian-born Austrian physicist and philosopher, who contributed to the physics of shock waves. The ratio of one's speed to that of sound is named the Mach ...
, in 1914 Bridgman attempted to redefine unobservable entities concretely in terms of the physical and mental operations used to measure them. Accordingly, the definition of each unobservable entity was uniquely identified with the instrumentation used to define it. From the beginning objections were raised to this approach, in large part around the inflexibility. As Boyd notes, "In actual, and apparently reliable, scientific practice, changes in the instrumentation associated with theoretical terms are routine. and apparently crucial to the progress of science. According to a 'pure' operationalist conception, these sorts of modifications would not be methodologically acceptable, since ''each'' definition must be considered to identify a ''unique'' 'object' (or class of objects)." However, this rejection of operationalism as a general project destined ultimately to define all experiential phenomena uniquely did not mean that operational definitions ceased to have any practical use or that they could not be applied in particular cases.


Science

The special theory of relativity can be viewed as the introduction of operational definitions for simultaneity of events and of distance, that is, as providing the operations needed to define these terms. In quantum mechanics the notion of operational definitions is closely related to the idea of
observables In physics, an observable is a physical quantity that can be measured. Examples include position and momentum. In systems governed by classical mechanics, it is a real-valued "function" on the set of all possible system states. In quantum physi ...
, that is, definitions based upon what can be measured. Operational definitions are often most challenging in the fields of psychology and psychiatry, where intuitive concepts, such as intelligence need to be operationally defined before they become amenable to scientific investigation, for example, through processes such as IQ tests.


Business

On October 15, 1970, the West Gate Bridge in Melbourne,
Australia Australia, officially the Commonwealth of Australia, is a Sovereign state, sovereign country comprising the mainland of the Australia (continent), Australian continent, the island of Tasmania, and numerous List of islands of Australia, sma ...
collapsed, killing 35 construction workers. The subsequent enquiry found that the failure arose because engineers had specified the supply of a quantity of ''flat steel plate.'' The word ''flat'' in this context lacked an operational definition, so there was no test for accepting or rejecting a particular shipment or for controlling quality. In his managerial and statistical writings, W. Edwards Deming placed great importance on the value of using operational definitions in all agreements in business. As he said: ::"An operational definition is a procedure agreed upon for translation of a concept into measurement of some kind." – W. Edwards Deming ::"There is no true value of any characteristic, state, or condition that is defined in terms of measurement or observation. Change of procedure for measurement (change of operational definition) or observation produces a new number." – W. Edwards Deming


General process

Operational, in a process context, also can denote a working method or a philosophy that focuses principally on cause and effect relationships (or stimulus/response, behavior, etc.) of specific interest to a particular domain at a particular point in time. As a working method, it does not consider issues related to a domain that are more general, such as the ontological, etc.


In computing

Science uses computing. Computing uses science. We have seen the development of computer science. There are not many who can bridge all three of these. One effect is that, when results are obtained using a computer, the results can be impossible to replicate if the code is poorly documented, contains errors, or if parts are omitted entirely. Many times, issues are related to persistence and clarity of use of variables, functions, and so forth. Also, systems dependence is an issue. In brief, length (as a standard) has matter as its definitional basis. What pray tell can be used when standards are to be computationally framed? Hence, operational definition can be used within the realm of the interactions of humans with advanced computational systems. In this sense, one area of discourse deals with computational thinking in, and with how it might influence, the sciences. To quote the American Scientist: * The computer revolution has profoundly affected how we think about science, experimentation, and research. One referenced project pulled together fluid experts, including some who were expert in the numeric modeling related to computational fluid dynamics, in a team with computer scientists. Essentially, it turned out that the computer guys did not know enough to weigh in as much as they would have liked. Thus, their role, to their chagrin, many times was "mere" programmer. Some
knowledge-based engineering Knowledge-based engineering (KBE) is the application of knowledge-based systems technology to the domain of manufacturing design and production. The design process is inherently a knowledge-intensive activity, so a great deal of the emphasis for K ...
projects experienced similarly that there is a trade-off between trying to teach programming to a domain expert versus getting a programmer to understand the intricacies of a domain. That, of course, depends upon the domain. In short, any team member has to decide which side of the coin to spend one's time. The International Society for Technology in Education has a brochure detailing an "operational definition" of computational thinking. At the same time, the ISTE made an attempt at defining related skills. A recognized skill is tolerance for ambiguity and being able to handle open-ended problems. For instance, a
knowledge-based engineering Knowledge-based engineering (KBE) is the application of knowledge-based systems technology to the domain of manufacturing design and production. The design process is inherently a knowledge-intensive activity, so a great deal of the emphasis for K ...
system can enhance its operational aspect and thereby its stability through more involvement by the
subject-matter expert A subject-matter expert (SME) is a person who has authority, accumulated great knowledge in a particular field or topic and this level of knowledge is demonstrated by the person's degree, licensure, and/or through years of professional experience ...
, thereby opening up issues of limits that are related to being human. As in, many times, computational results have to be taken at face value due to several factors (hence the
duck test The duck test is a form of abductive reasoning, usually expressed as "If it looks like a duck, swims like a duck, and quacks like a duck, then it probably is a duck." The test implies that a person can identify an unknown subject by observing t ...
's necessity arises) that even an expert cannot overcome. The end proof may be the final results (reasonable facsimile by simulation or
artifact Artifact, or artefact, may refer to: Science and technology * Artifact (error), misleading or confusing alteration in data or observation, commonly in experimental science, resulting from flaws in technique or equipment ** Compression artifact, a ...
, working design, etc.) that are not guaranteed to be repeatable, may have been costly to attain (time and money), and so forth. In advanced modeling, with the requisite computational support such as knowledge-based engineering, mappings must be maintained between a real-world object, its abstracted counterparts as defined by the domain and its experts, and the computer models. Mismatches between domain models and their computational mirrors can raise issues apropos this topic. Techniques that allow the flexible modeling required for many hard problems must resolve issues of identity, type, etc. which then lead to methods, such as duck typing. Many domains, with a
numerics Numerical control (also computer numerical control, and commonly called CNC) is the automated control of machining tools (such as drills, lathes, mills, grinders, routers and 3D printers) by means of a computer. A CNC machine processes a piec ...
focus, use limit theory, of various sorts, to overcome the duck test necessity with varying degrees of success. Yet, with that, issues still remain as representational frameworks bear heavily on what we can know. In arguing for an object-based methodology, Peter Wegner suggested that "positivist scientific philosophies, such as operationalism in physics and behaviorism in psychology" were powerfully applied in the early part of the 20th century. However, computation has changed the landscape. He notes that we need to distinguish four levels of "irreversible physical and computational abstraction" (Platonic abstraction, computational approximation, functional abstraction, and value computation). Then, we must rely on interactive methods, that have behavior as their focus (see duck test).


Examples


Temperature

The thermodynamic definition of temperature, due to
Nicolas Léonard Sadi Carnot ''Sous-lieutenant'' Nicolas Léonard Sadi Carnot (; 1 June 1796 – 24 August 1832) was a French mechanical engineer in the French Army, military scientist and physicist, and often described as the "father of thermodynamics". He published onl ...
, refers to heat "flowing" between "infinite reservoirs". This is all highly abstract and unsuited for the day-to-day world of science and trade. In order to make the idea concrete, temperature is defined in terms of operations with the gas thermometer. However, these are sophisticated and delicate instruments, only adapted to the national standardization laboratory. For day-to-day use, the
International Temperature Scale of 1990 The International Temperature Scale of 1990 (ITS-90) is an equipment calibration standard specified by the International Committee of Weights and Measures (CIPM) for making measurements on the Kelvin and Celsius temperature scales. It is an appro ...
(ITS) is used, defining temperature in terms of characteristics of the several specific sensor types required to cover the full range. One such is the electrical resistance of a thermistor, with specified construction, calibrated against operationally defined fixed points.


Electric current

Electric current An electric current is a stream of charged particles, such as electrons or ions, moving through an electrical conductor or space. It is measured as the net rate of flow of electric charge through a surface or into a control volume. The moving pa ...
is defined in terms of the
force In physics, a force is an influence that can change the motion of an object. A force can cause an object with mass to change its velocity (e.g. moving from a state of rest), i.e., to accelerate. Force can also be described intuitively as a p ...
between two infinite parallel conductors, separated by a specified distance. This definition is too abstract for practical measurement, so a device known as a
current balance The ampere balance (also current balance or Kelvin balance) is an electromechanical apparatus used for the precise measurement of the SI unit of electric current, the ampere. It was invented by William Thomson, 1st Baron Kelvin. The curre ...
is used to define the
ampere The ampere (, ; symbol: A), often shortened to amp,SI supports only the use of symbols and deprecates the use of abbreviations for units. is the unit of electric current in the International System of Units (SI). One ampere is equal to elect ...
operationally.


Mechanical hardness

Unlike temperature and
electric current An electric current is a stream of charged particles, such as electrons or ions, moving through an electrical conductor or space. It is measured as the net rate of flow of electric charge through a surface or into a control volume. The moving pa ...
, there is no abstract physical concept of the hardness of a material. It is a slightly vague, subjective idea, somewhat like the idea of intelligence. In fact, it leads to three more specific ideas: # Scratch hardness measured on Mohs' scale; # Indentation hardness; and # Rebound, or dynamic, hardness measured with a Shore scleroscope. Of these, indentation hardness itself leads to many operational definitions, the most important of which are: # Brinell hardness test – using a 10 mm steel ball; # Vickers hardness test – using a pyramidal diamond indenter; and # Rockwell hardness test – using a diamond cone indenter. In all these, a process is defined for loading the indenter, measuring the resulting indentation, and calculating a hardness number. Each of these three sequences of measurement operations produces numbers that are consistent with our subjective idea of hardness. The harder the material to our informal perception, the greater the number it will achieve on our respective hardness scales. Furthermore, experimental results obtained using these measurement methods has shown that the hardness number can be used to predict the stress required to permanently deform steel, a characteristic that fits in well with our idea of resistance to permanent deformation. However, there is not always a simple relationship between the various hardness scales. Vickers and Rockwell hardness numbers exhibit qualitatively different behaviour when used to describe some materials and phenomena.


The constellation Virgo

The constellation Virgo is a specific constellation of stars in the sky, hence the process of forming Virgo cannot be an operational definition, since it is historical and not repeatable. Nevertheless, the process whereby we locate Virgo in the sky ''is'' repeatable, so in this way, Virgo is operationally defined. In fact, Virgo can have any number of definitions (although we can never prove that we are talking about the ''same'' Virgo), and any number may be operational.


Academic discipline

New academic disciplines appear in response to
interdisciplinary Interdisciplinarity or interdisciplinary studies involves the combination of multiple academic disciplines into one activity (e.g., a research project). It draws knowledge from several other fields like sociology, anthropology, psychology, ec ...
activity at universities. An academic suggested that a subject matter area becomes a discipline when there are more than a dozen university departments using the same name for roughly the same subject matter. Rustum Roy (1977) "Interdisciplinary science on campus – the elusive dream", Chemical and Engineering News 55(35): 28–40


Theoretical vs operational definition


See also

*
Duck test The duck test is a form of abductive reasoning, usually expressed as "If it looks like a duck, swims like a duck, and quacks like a duck, then it probably is a duck." The test implies that a person can identify an unknown subject by observing t ...
* Operationalization * Pragmatic maxim * Pragmaticism * Pragmatism * Theoretical/ Conceptual definition


References


Further reading

* Ballantyne, Paul F. ''History and Theory of Psychology Course, in'' Langfeld, H.S. (1945). Introduction to the Symposium on Operationism. ''Psyc. Rev.'' 32, 241–24

* Bohm, D. (1996). On Dialog. N.Y.: Routledge. * Boyd, Richard. (1959).''On the Current Status of the Issue of Scientific Realism'' in ''Erkenntnis''. 19, 45–90. * Bridgman, P. W. ''The way things are.'' Cambridge: Harvard University Press. * Carnap, Rudolph. (1959). ''The Elimination of Metaphysics Through Logical Analysis of Language'' in Ayer, A.J. * Churchland, Patricia. (1986). ''Neurophilosophy— Toward a unified science of the mind/brain,'' MIT Press. * Churchland, Paul. (1989). ''A Neurocomputational Perspective— The Nature of Mind and the Structure of Science,'' MIT Press. * Dennett, Daniel C. (1992).''Consciousness Explained'', Little, Brown & Co.. * Depraz, N. (1999). "The phenomenological reduction as praxis." ''Journal of Consciousness Studies'', 6(2-3), 95–110. * Green, C. D. (1992). "Of Immortal Mythological Beasts: Operationism in Psychology." ''Theory & Psychology'', 2, 291–32

* Hardcastle, G. L. (1995). "S.S. Stevens and the origins of operationism." ''Philosophy of Science'', 62, 404–424. * Hermans, H. J. M. (1996). "Voicing the self: from information processing to dialogical interchange." ''Psychological Bulletin'', 119(1), 31–50. * Hyman, Bronwen, U of Toronto, and Shephard, Alfred H., U of Manitoba. (1980). "Zeitgeist: The Development of an Operational Definition", ''The Journal of Mind and Behavior'', 1(2), 227–246. * Leahy, Thomas H., Virginia Commonwealth U. (1980). ''The Myth of Operationism,'' ''ibid,'', 127–144. * Ribes-Inesta, Emilio "What Is Defined In Operational Definitions? The Case Of Operant Psychology," ''Behavior and Philosophy'', 200

* Roepstorff, A. & Jack, A. (2003). "Editorial introduction, Special Issue: Trusting the Subject? (Part 1)." ''Journal of Consciousness Studies'', 10(9–10), v–xx. * Roepstorff, A. & Jack, A. (2004). "Trust or Interaction? Editorial introduction, Special Issue: Trusting the Subject? (Part 2)." ''Journal of Consciousness Studies'', 11(7–8), v–xxii. * Stevens, S. S. (1963).''Operationism and logical positivism, in'' M. H. Marx (Ed.), Theories in contemporary psychology (pp. 47–76). New York: MacMillan. * Thomson — Waddsworth, eds., ''Learning Psychology: Operational Definitions Research Methods Workshops

{{Defining Definition Philosophy of science