nLab objective and subjective logic

Contents

Contents

Idea

In his Science of Logic Georg Hegel makes a distinction between subjective logic, which involves concepts, judgements and deduction (as usual for logic), and objective logic which is concerned with something like the logos, a kind of ontology or metaphysics, not unlike the ontological deductions of Spinoza's system.

This objective logic as presented by Hegel is hence rather unlike common predicate logic, a fact that led to the rejection of this school of objective idealism by Bertrand Russell and the school of analytic philosophy.

In (Lawvere 94) it is suggested that universal constructions in categorical logic and topos theory, such as adjunctions, should be thought of as the formal incarnation of Hegel’s objective logic. Related suggestions are implicit in many of Lawvere‘s writings, see at Lawvere – Mathematics relating to philosophy.

Lawvere 92: It is my belief that in the next decade and in the next century the technical advances forged by category theorists will be of value to dialectical philosophy, lending precise form with disputable mathematical models to ancient philosophical distinctions such as general vs. particular, objective vs. subjective, being vs. becoming, space vs. quantity, equality vs. difference, quantitative vs. qualitative etc. In turn the explicit attention by mathematicians to such philosophical questions is necessary to achieve the goal of making mathematics (and hence other sciences) more widely learnable and useable. Of course this will require that philosophers learn mathematics and that mathematicians learn philosophy.

In (Lawvere-Rosebrugh 03, section C.1) the following characterization is given:

Logic:

The science of logic in the ancient philosophical sense means the study of the general laws of the development of thinking. Thinking (1) reflects reality (i.e., has a content) but also (2) is itself part of reality and so has some motions that are oblivious to content. Therefore the science of logic finds two aspects of thought’s motion: (1) the struggle to form a conceptual image of reality that is ever more refined, whose laws we may call objective logic, and (2) the motion of thought in itself (for example the inference of statements from statements), whose laws we may call subjective logic. Although grammar and some aspects of algebra might be considered as subjective logic, we will limit ourselves to the part we will sometimes refer to as logic in the narrow sense – that which is related to the inference of statements from statements by means dependent on their form rather than on their content. (Logic in the narrow sense is explained in more detail in Appendix A.) Logic in the narrow sense is useful (at least in mathematics) if it is made explicit, and the work of Boole and Grassmann in the 1840s, Schröder in the late 1800s, Skolem in the early 1900s, Heyting in the 1930s (and of many others) has led to a high development, most aspects of which were revealed to be special cases of adjoint functors by 1970 [La69b]. The use of adjoint functors assists in reincorporating the subjective into its rightful place as a part of the objective so that it can organically reflect the objective and in general facilitate the mutual transformation of these two aspects of logic.

Logic, Objective:

The long chains of correct reasonings and calculations of which subjective logic is justly proud are only possible within a precisely defined universe of discourse, as has long been recognized. Since there are many such universes of discourse, thinking necessarily involves many transformations between universes of discourse as well as transformations of one universe of discourse into another. The results of applying logic in the narrow sense to the laws of these objective transformations are necessarily inadequate; for example, such attempts have led to the use of phrases such as “let X be a set in which there exists a group structure,” which are essentially meaningless. Rather than using “there exists” in such contexts, one needs instead a logic of “given.” Before category theory, at least one systematic discussion of the laws of these objective transformations was given by Bourbaki, who discussed how one structure could be deduced from another. The concepts of categories, functors, homomorphisms, adjoint functors, and so on, provide a rich beginning to the project of making objective logic explicit, but there is probably much more to be discovered.

Related commentary is in (Rodin 14).

References

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