Cf: Differential Logic • 4 https://inquiryintoinquiry.com/2020/03/26/differential-logic-4/
Differential Expansions of Propositions ======================================= https://oeis.org/wiki/Differential_Logic_%E2%80%A2_Part_1#Differential_Expansions_of_Propositions Bird’s Eye View =============== https://oeis.org/wiki/Differential_Logic_%E2%80%A2_Part_1#Bird.27s_Eye_View An efficient calculus for the realm of logic represented by boolean functions and elementary propositions makes it feasible to compute the finite differences and the differentials of those functions and propositions. For example, consider a proposition of the form “p and q” graphed as two letters attached to a root node, as shown below. Figure 1. Cactus Graph Existential p and q https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-existential-p-and-q.jpg Written as a string, this is just the concatenation “p q”. The proposition pq may be taken as a boolean function f(p, q) having the abstract type f : B × B → B, where B = {0, 1} is read in such a way that 0 means false and 1 means true. Imagine yourself standing in a fixed cell of the corresponding venn diagram, say, the cell where the proposition pq is true, as shown in the following Figure. Figure 2. Venn Diagram p and q https://inquiryintoinquiry.files.wordpress.com/2020/03/venn-diagram-p-and-q.jpg Now ask yourself: What is the value of the proposition pq at a distance of dp and dq from the cell pq where you are standing? Don't think about it — just compute: Figure 3. Cactus Graph (p, dp)(q, dq) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-pdpqdq-1.jpg The cactus formula (p, dp)(q, dq) and its corresponding graph arise by replacing p with p + dp and q with q + dq in the boolean product or logical conjunction pq and writing the result in the two dialects of cactus syntax. This follows because the boolean sum p + dp is equivalent to the logical operation of exclusive disjunction, which parses to a cactus graph of the following form. Figure 4. Cactus Graph (p, dp) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-pdp-1.jpg Next question: What is the difference between the value of the proposition pq over there, at a distance of dp and dq from where you are standing, and the value of the proposition pq where you are, all expressed in the form of a general formula, of course? The answer takes the following form. Figure 5. Cactus Graph ((p, dp)(q, dq), pq) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-pdpqdqpq-1.jpg There is one thing I ought to mention at this point: Computed over B, plus and minus are identical operations. This will make the relation between the differential and the integral parts of the appropriate calculus slightly stranger than usual, but we will get into that later. Last question, for now: What is the value of this expression from your current standpoint, that is, evaluated at the point where pq is true? Well, replacing p with 1 and q with 1 in the cactus graph amounts to erasing the labels p and q, as shown below. Figure 6. Cactus Graph (( , dp)( , dq), ) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-dp-dq-1-1.jpg And this is equivalent to the following graph. Figure 7. Cactus Graph ((dp)(dq)) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-dpdq-1.jpg We have just met with the fact that the differential of the AND is the OR of the differentials. • p and q ---Diff---> dp or dq Figure 8. Cactus Graph pq Diff ((dp)(dq)) https://inquiryintoinquiry.files.wordpress.com/2020/03/cactus-graph-pq-diff-dpdq-1.jpg It will be necessary to develop a more refined analysis of that statement directly, but that is roughly the nub of it. If the form of the above statement reminds you of De Morgan's rule, it is no accident, as differentiation and negation turn out to be closely related operations. Indeed, one can find discussions of logical difference calculus in the Boole–De Morgan correspondence and Peirce also made use of differential operators in a logical context, but the exploration of these ideas has been hampered by a number of factors, not the least of which has been the lack of a syntax adequate to handle the complexity of expressions evolving in the process. Note. Due to the large number of Figures I won't attach them here, but see the blog post linked at top of the page for the Figures and also for the proper math formatting. Regards, Jon
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