The Baconian method is the investigative method developed by Sir Francis Bacon, one of the founders of modern science, and thus a first formulation of a modern

scientific method The scientific method is an Empirical evidence, empirical method for acquiring knowledge that has characterized the development of science since at least the 17th century (with notable practitioners in previous centuries; see the article hist ...

. The method was put forward in Bacon's book '' Novum Organum'' (1620), or 'New Method', and was supposed to replace the methods put forward in

Aristotle Aristotle (; grc-gre, Ἀριστοτέλης ''Aristotélēs'', ; 384–322 BC) was a Greek philosopher and polymath during the Classical Greece, Classical period in Ancient Greece. Taught by Plato, he was the founder of the Peripatet ...

's ''

Organon The ''Organon'' ( grc, Ὄργανον, meaning "instrument, tool, organ") is the standard collection of Aristotle's six works on logical analysis and dialectic. The name ''Organon'' was given by Aristotle's followers, the Peripatetics. The si ...

''. This method was influential upon the development of the scientific method in

modern science The history of science covers the development of science from ancient times to the present. It encompasses all three major branches of science: natural, social, and formal. Science's earliest roots can be traced to Ancient Egypt and Mesop ...

; but also more generally in the early modern rejection of medieval

Aristotelianism Aristotelianism ( ) is a philosophical tradition inspired by the work of Aristotle, usually characterized by deductive logic and an analytic inductive method in the study of natural philosophy and metaphysics. It covers the treatment of the soci ...

Description in the ''Novum Organum''

Bacon's view of induction

Bacon's method is an example of the application of inductive reasoning. However, Bacon's method of induction is much more complex than the essential inductive process of making generalisations from observations. Bacon's method begins with description of the requirements for making the careful, systematic observations necessary to produce quality facts. He then proceeds to use induction, the ability to generalise from a set of facts to one or more axioms. However, he stresses the necessity of not generalising beyond what the facts truly demonstrate. The next step may be to gather additional data, or the researcher may use existing data and the new axioms to establish additional axioms. Specific types of facts can be particularly useful, such as negative instances, exceptional instances and data from experiments. The whole process is repeated in a stepwise fashion to build an increasingly complex base of knowledge, but one which is always supported by observed facts, or more generally speaking, empirical data. He argues in the ''Novum Organum'' that our only hope for building true knowledge is through this careful method. Old knowledge-building methods were often not based in facts, but on broad, ill-proven deductions and metaphysical conjecture. Even when theories were based in fact, they were often broad generalisations and/or abstractions from few instances of casually gathered observations. Using Bacon's process, man could start fresh, setting aside old superstitions, over-generalisations, and traditional (often unproven) "facts". Researchers could slowly but accurately build an essential base of knowledge from the ground up. Describing then-existing knowledge, Bacon claims:

There is the same degree of licentiousness and error in forming axioms as here isin abstracting notions, and lsoin the first principles, which depend in common induction ersus Bacon's induction still more is this the case in axioms and inferior propositions derived from syllogisms.

While he advocated a very empirical, observational, reasoned method that did away with metaphysical conjecture, Bacon was a religious man, believed in God, and believed his work had a religious role. He contended, like other researchers at the time, that by doing this careful work man could begin to understand God's wonderful creation, to reclaim the knowledge that had been lost in Adam and Eve's "fall", and to make the most of his God-given talents.

Role of the English Reformation

There is a wider array of seminal works about the interaction of Puritanism and early science. Among others,

Dorothy Stimson Dorothy Stimson (October 10, 1890 – September 19, 1988) was an American academic. She served as the dean of Goucher College from 1921 to 1947 and was a professor of history at the college until 1955. Stimson served as the president of the His ...

, Richard Foster Jones, and Robert Merton saw Puritanism as a major driver of the reforms initiated by Bacon and the development of science overall. Steven Matthews is cautious about the interaction with a single confession, as the English Reformation allowed a higher doctrinal diversity compared to the continent. However, Matthews is quite outspoken that "Bacon's entire understanding of what we call "science," and what he called "natural philosophy," was fashioned around the basic tenets of his belief system."

Approach to causality

The method consists of procedures for isolating and further investigating the ''form nature'', or cause, of a

phenomenon A phenomenon (plural, : phenomena) is an observable event. The term came into its modern Philosophy, philosophical usage through Immanuel Kant, who contrasted it with the noumenon, which ''cannot'' be directly observed. Kant was heavily influe ...

, including the method of agreement, method of difference, and method of concomitant variation.Hesse, M. B. (1964), "Francis Bacon's Philosophy of Science", in A Critical History of Western Philosophy, ed. D. J. O'Connor, New York, pp. 141—52. Bacon suggests that you draw up a list of all things in which the phenomenon you are trying to explain occurs, as well as a list of things in which it does not occur. Then you rank your lists according to the degree in which the phenomenon occurs in each one. Then you should be able to deduce what factors match the occurrence of the phenomenon in one list and don't occur in the other list, and also what factors change in accordance with the way the data had been ranked. Thus, if an army is successful when commanded by Essex, and not successful when not commanded by Essex: and when it is more or less successful according to the degree of involvement of Essex as its commander, then it is scientifically reasonable to say that being commanded by Essex is causally related to the army's success. From this Bacon suggests that the underlying cause of the phenomenon, what he calls the "form", can be approximated by interpreting the results of one's observations. This approximation Bacon calls the "First Vintage". It is not a final conclusion about the formal cause of the phenomenon but merely a hypothesis. It is only the first stage in the attempt to find the form and it must be scrutinised and compared to other hypotheses. In this manner, the truth of natural philosophy is approached "by gradual degrees", as stated in his ''Novum Organum''.

Refinements

The "Baconian method" does not end at the First Vintage. Bacon described numerous classes of ''Instances with Special Powers,'' cases in which the phenomenon one is attempting to explain is particularly relevant. These instances, of which Bacon describes 27 in the ''Novum Organum'', aid and accelerate the process of induction. Aside from the First Vintage and the Instances with Special Powers, Bacon enumerates additional "aids to the intellect" which presumably are the next steps in his method. These additional aids, however, were never explained beyond their initial limited appearance in ''Novum Organum''.

Natural history

The '' Natural History'' of

Pliny the Elder Gaius Plinius Secundus (AD 23/2479), called Pliny the Elder (), was a Roman author, naturalist and natural philosopher, and naval and army commander of the early Roman Empire, and a friend of the emperor Vespasian. He wrote the encyclopedic ...

was a classical Roman encyclopedia work. Induction, for Bacon's followers, meant a type of rigour applied to factual matters. Reasoning should not be applied in plain fashion to just any collection of examples, an approach identified as "Plinian". In considering natural facts, a fuller survey was required to form a basis for going further. Bacon made it clear he was looking for more than "a botany" with discursive accretions. In concrete terms, the cabinet of curiosities, exemplifying the Plinian approach, was to be upgraded from a source of wonderment to a challenge to science. The main source in Bacon's works for the approach was his ''Sylva Sylvarum'', and it suggested a more systematic collection of data in the search for causal explanations. Underlying the method, as applied in this context, are therefore the "tables of natural history" and the ways in which they are to be constructed. Bacon's background in the

common law In law, common law (also known as judicial precedent, judge-made law, or case law) is the body of law created by judges and similar quasi-judicial tribunals by virtue of being stated in written opinions."The common law is not a brooding omniprese ...

has been proposed as a source for this concept of investigation. As a general intellectual programme, Bacon's ideas on "natural history" have been seen as a broad influence on British writers later in the 17th century, in particular in economic thought and within the

Royal Society The Royal Society, formally The Royal Society of London for Improving Natural Knowledge, is a learned society and the United Kingdom's national academy of sciences. The society fulfils a number of roles: promoting science and its benefits, r ...

Idols of the mind (''idola mentis'')

Bacon also listed what he called the idols (false images) of the mind. He described these as things which obstructed the path of correct scientific reasoning. #Idols of the Tribe ('' Idola tribus''): This is humans' tendency to perceive more order and regularity in systems than truly exists, and is due to people following their preconceived ideas about things. #Idols of the Cave ('' Idola specus''): This is due to individuals' personal weaknesses in reasoning due to particular personalities, likes and dislikes. #Idols of the Marketplace ('' Idola fori''): This is due to confusion in the use of language and taking some words in science to have a different meaning than their common usage. #Idols of the Theatre ('' Idola theatri''): This is the following of academic dogma and not asking questions about the world.

Influence

The physician Thomas Browne (1605–1682) was one of the first scientists to adhere to the empiricism of the Baconian method. His encyclopaedia ''

Pseudodoxia Epidemica ''Pseudodoxia Epidemica or Enquiries into very many received tenents and commonly presumed truths'', also known simply as ''Pseudodoxia Epidemica'' or ''Vulgar Errors'', is a work by Thomas Browne challenging and refuting the "vulgar" or common ...

'' (1st edition 1646 – 5th edition 1672) includes numerous examples of Baconian investigative methodology, while its preface echoes lines from Bacon's ''On Truth'' from '' The Advancement of Learning'' (1605).

Isaac Newton Sir Isaac Newton (25 December 1642 – 20 March 1726/27) was an English mathematician, physicist, astronomer, alchemist, theologian, and author (described in his time as a " natural philosopher"), widely recognised as one of the g ...

's saying '' hypotheses non fingo'' (I don't frame hypotheses) occurs in later editions of the '' Principia''. It represents his preference for rules that could be demonstrated, as opposed to unevidenced hypotheses. The Baconian method was further developed and promoted by John Stuart Mill. His 1843 book, '' A System of Logic'', was an effort to shed further light on issues of causation. In this work, he formulated the five principles of inductive reasoning now known as Mill's methods.

Frankfurt School critique of Baconian method

Max Horkheimer and Theodor Adorno observe that Bacon shuns "knowledge that tendeth but to satisfaction" in favor of effective procedures. While the Baconian method disparages idols of the mind, its requirement for effective procedures compels it to adopt a credulous, submissive stance toward worldly power. :: Power confronts the individual as the universal, as the reason which informs reality. ::Knowledge, which is power, knows no limits, either in its enslavement of creation or in its deference to worldly masters. Horkheimer and Adorno offer a plea to recover the virtues of the "metaphysical apologia", which is able to reveal the injustice of effective procedures rather than merely employing them. ::The metaphysical apologia at least betrayed the injustice of the established order through the incongruence of concept and reality. The impartiality of scientific language deprived what was powerless of the strength to make itself heard and merely provided the existing order with a neutral sign for itself. Such neutrality is more metaphysical than metaphysics.Die metaphysische Apologie verriet die Ungerechtigkeit des Bestehenden wenigstens durch die Inkongruenz von Begriff und Wirklichkeit. In der Unparteilichkeit der wissenschaftlichen Sprache hat das Ohnmächtige vollends die Kraft verloren, sich Ausdruck zu verschaffen, und bloß das Bestehende findet ihr neutrales Zeichen. Solche Neutralität ist metaphysischer als die Metaphysik. '' ibid'', p. 17

Notes

References

* {{DEFAULTSORT:Baconian Method History of scientific method Heuristics Francis Bacon de:Idolenlehre