Experimental semantics - theoretical module 3800-SEMT23-S-OG

Knowledge:
Students
- know the basic concepts in semantics conceived as a discipline of linguistics, psycholinguistics and philosophy of language
- are familiar with the current state of knowledge in the field of experimental semantics and its selected issues,
- are aware of the challenges and the limitations of the experimental methods in semantics.

Scientific skills:
Students
- are able to plan and implement an experimental study on a certain semantic issue, in cooperation with other students,
- know how to apply selected experimental methods to test semantic hypotheses,
- know how to analyze the results of an experimental study.

Social skills:
Students
- are able to prepare a work plan for the team, as well as for the individuals involved in specific tasks,
- understand their role in a team, can communicate with others, express their own position and understand the positions of others,
- can evaluate their own and others work and provide feedback.

Requirements:
- presentation of a selected experiment and its theoretical background, based on the proposed literature
- a commentary to one of the papers from the list
- preparing an own project of experimental study, individually or in small groups

Number of absences: 2

Literature (selected positions):
Machery, E., Sytsma, J., & Deutsch, M. (2015). “Speaker’s reference and cross-cultural semantics”. In A. Bianchi (ed.), On Reference, 62–76. Oxford, UK: Oxford University Press.
Devitt, M., Porot, N. (2018). “The reference of proper names: testing usage and intuitions”. Cognitive Science 42, 1552–1585.
Abrusán, M., & Szendrői, K. (2013). “Experimenting with the king of France — topics, verifiability and definite descriptions”. Semantics and Pragmatics 6(10), 1–43.
Schwarz, F. (2016). “False but slow: Rejecting statements with non-referring definites”. Journal of Semantics 33(1), 177-214.
Gordon, P. C., Grosz, B. J., Gilliom, L.A., (1993), “Pronouns, names, and the centering of attention in discourse”, Cognitive Science 17, 311-347.
Rostworowski, W., Kuś, K., Maćkiewicz, B., (2022). “Against Intentionalism: experimental study on demonstrative reference”, Linguistics and Philosophy 45, 1027-1061.
Oberauer, K., Weidenfeld, A., & K. Fischer (2007). “What makes us believe a conditional? The roles of covariation and causality”, Thinking & Reasoning, 13:4, 340-369.
Krzyżanowska, K., Collins, P., U. Hahn (2017). “Between a conditional’s antecedent and its consequent: discourse coherence vs. probabilistic relevance”. Cognition 164, 199–205.
Douven, I., Elqayam, S., & Mirabile, P. (2022). “Inference strength predicts the probability of conditionals better than conditional probability does”. Journal of Memory and Language, 123(2). https://doi.org/10.1016/j.jml.2021.104302
Geurts, B., Katsos, N., Cummins, Ch., Moons, J. and Noordman, L. (2010). “Scalar quantifiers: logic, acquisition, and processing”. Language and Cognitive Processes, 25: 130-148.
Chemla, E. & Bott, L. (2013). “Processing presuppositions: dynamic semantics vs pragmatic enrichment”. Language and Cognitive Processes 38(3): 241–260.

Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:

• Inter-faculty Studies in Bioinformatics and Systems Biology
• Bachelor's degree, first cycle programme, Computer Science
• Bachelor's degree, first cycle programme, Mathematics
• Master's degree, second cycle programme, Bioinformatics and Systems Biology
• Master's degree, second cycle programme, Computer Science
• Master's degree, second cycle programme, Mathematics

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

• Description of 3800-SEMT23-S-OG in USOSweb