This modification was one of the three introduced that superseded Oh’s original modification, given that members of the community wanted the option to vote separately on the three distinct modifications contained in the original proposed modification. The community found that, while there are intuitive reasons to accept element decay’s existence, the lack of observational evidence beyond Oh’s investigation of the episode of Cremonese violins brought many people pause. Rebecca Muscant noted that the risks of accepting the existence of a phenomenon prematurely overweigh the risks of keeping the question open, since showing the non-existence of a phenomenon is a much more arduous task. Deivide Oliveira suggested that, in spite of this risk, accepting the modification would allow for more instances of element decay to be identified. However, Landon See and Hakob Barseghyan pushed back, suggesting that the premature acceptance of the existence of element decay may in fact disencourage scholars from searching for other historical episodes involving element decay. They suggested that leaving the question open would be more conducive to future pursuit of the topic. It was also agreed that one clear-cut instance is necessary before the existence of element decay can be accepted. Concern about stakes more generally permeated the discussion. Although Jamie Shaw rightly identified that our community has safeguards against dogmatic practice, and is small enough that things do not slip through the cracks, concerns about premature acceptance persisted until the end of the discussion. Ultimately, then the community voted to keep the modification open by over a 2/3rds majority. 11 out of 15 votes supported keeping the modification open.
Prior to the 2024 scientonomy workshop, several comments were left on the encyclopedia expressing a range of opinions regarding accepting the modification. Carlin Henikoff expressed an issue with expecting scientonomers to be responsible for making existential claims regarding phenomena which lie beyond the scope of scientonomy, and highlighted the lack of clear-cut case studies in Oh’s paper, although she did not take issue with the classification of element decay as non-scientonomic or its potential usefulness in explicating mosaic dynamics. Other commenters who supported accepting the modification still identified that further observational work needed to be done on certain aspects of the modification. For example, Joshua Allen believed that more work needed to be done on Oh’s proposed list of necessary indicators, the acceptance of which was entwined with the rest of the modification.
During the discussion at the workshop, some participants raised a concern that the original modification makes several sufficiently distinct claims that must be evaluated separately. After brief discussion led by Paul Patton about non-scientonomic phenomena and whether we have a formal definition for them in scientonomy, Hakob Barseghyan highlighted that accepting that element decay exists and accepting that element decay is non-scientonomic was being coupled in the same modification. Thus, perhaps the modification should be split into two sub-modifications that could be individually voted on, which would also address Patton and Henikoff’s concerns. Then, Izzy Friesen suggested that the modification should in fact be superseded by three modification, as the original modification essentially consists of three suggestions:
accept the existence of element decay;
accept the indicators of element decay;
accept that element decay is a non scientonomic phenomenon.
After a brief discussion about the merits of splitting, the community voted on whether to split the modification two ways, three ways, or to keep it as is. The option to split the modification three ways reached a two-thirds majority.
Prior to the 2024 workshop, Hakob Barseghyan commented on the encyclopedia indicating his support for accepting this modification and noted its potential to underpin further work on discipline dynamics. In fact, a significant amount of observational scientonomy work has been carried out in the past few years (including the paper on the rejection of alchemy by Friesen and Patton (2023),1 as well as some more recent papers) that presupposes the acceptance of these definitions, despite the fact that the modification containing them formally remains open. There was very little discussion about the modification, beyond raising points for the community to look forward to in the future, like a brief discussion between Jamie Shaw and Paul Patton about the need for more research on the difference between disciplines and disciplinary communities. The modification was accepted unanimously with 18 votes.
Abstract: This paper applies Patton and Al-Zayadi’s scientonomic framework for understanding disciplines to a case study of the development of the chemical discipline ("chymistry") from the 17th century through the early 18th century in Western Europe. Using evidence from the tradition of textbook publication that emerged in the seventeenth-century chymistry, we reconstruct the top-level of the question hierarchy of chymistry. Analyzing how these questions and their associated theories were received, we first show how, starting in the 1660s, alchemy transitioned from a synonym of chymistry to chymistry’s subdiscipline with a more limited scope. We identify that the rejection of alchemy's core questions occurred in the 1720s based on the reception of these questions in scientific publications and by academic institutions. Hence, we conclude that the subdiscipline of alchemy became rejected in the 1720s. In order to conduct our case-study, we closely follow Newman and Principe's research on early modern alchemy and chymistry in our reconstruction of the episode. However, using the scientonomic framework in analyzing this case study reveals the specific dynamics of this instance of sub-discipline rejection. Our deepened understanding of this hallmark historical episode of disciplinary rejection indicates the value of Patton and Al-Zayadi’s theoretical framework for observational scientonomic research.
Abstract: In a series of publications, Hasok Chang makes the case that activities carried out by epistemic agents form the basis of the scientific enterprise. This paper provides an action-based scientonomic perspective of scientific practice. I define epistemic action as an action of an epistemic agent that involves an epistemic element and highlight the difference between global and local actions. The availability of a local action to an epistemic agent amounts to the agent employing the norm that the local action is permissible/desirable. To unearth the mechanism by which local actions become available to epistemic agents, I derive the local action availability theorem, according to which, a local epistemic action becomes available to an agent only when its permissibility is derivable from a non-empty subset of other elements of the agent’s mosaic, i.e., from that agent’s employed norms and accepted theories. This framework is then applied to the emergence of the local action of determining the composition of chemical substances by weighing as practiced by Lavoisier and his followers; it is shown that the respective norm became employed in accord with the local action availability theorem.
Abstract: The paper investigates the applicability of corpus linguistics to the construction of a database of intellectual history. Working with the Royal Society Corpus (RSC), it presents a series of corpus queries that can aid with computationally identifying potential instances of communal theory acceptance in England during the period of 1665-1800. These queries allowed to identify a set of noun-adjective pairs potentially synonymous with “accepted theory” and retrieve around 1,400 excerpts potentially indicative of instances of communal theory acceptance. The paper also discusses some strategies for identifying the epistemic agent, as well as the RSC’s place within the broader historical context. Finally, I argue that, in addition to exploring corpus linguistics strategies, methodologies for interpreting computationally retrieved data should also be developed.