HISTORY OF SCIENTIFIC THOUGHT
STORIA DEL PENSIERO SCIENTIFICO
Indeterminacy. Reflections on physics, psychology and biology
Indeterminismo. Riflessioni tra fisica, psicologia e biologia
A.Y. | Credits |
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2021/2022 | 6 |
Lecturer | Office hours for students | |
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Isabella Tassani | Individual tutorials: Eventual preliminary talks will be on Tuesday after lectures. Wednesday (10-11) after lectures, or when they are requested by students (upon agreement fixed by e-mail). |
Teaching in foreign languages |
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Course partially taught in a foreign language
English
This course is taught partially in Italian and partially in a foreign language. Study materials can be provided in the foreign language and the final exam can be taken in the foreign language. |
Assigned to the Degree Course
Date | Time | Classroom / Location |
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Date | Time | Classroom / Location |
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Learning Objectives
The birth of quantum physics represents a sort of Copernican revolution in the history of science, very similar to the Darwinian one in biology. The course is designed to develop a general epistemological reflection on how this non-deterministic theory, although it has never been falsified, is nowadays yet mysterious and non-intuitive. In fact, quantum reality cannot be described in an objective and causal manner, but only though probabilistic propositions. What is quantum reality? Also the objectivity of scientific knowledge becomes questionable after the advent of this theory. The course is designed to improve the student’s awareness of how long and interesting has been the debate between the main Ninetheenth quantum physicists, that courageously opened new ways of thinking: Heisenberg, that changed the classical physical way to describe electrons, but also Bohr, Schrödinger, Einstein, Pauli, Born and many others. Their epistemological reflections on quantum physics and their different interpretations of the theory (orthodox, non-orthodox, relational) show that scientific discovery is not always fruit only of rational dynamics.
More generally, the course intends to emphasize how the same epistemological questions, posed at the birth of quantum physics, are now considered differently by many recent psychological studies on modalities of our understanding and above all those on cognitive bias, which could be explained by biological origins of our species.
Finally, the course is designed to improve the student’s awareness of the fact that a meaningful contribution to the debate can be given by darwinian evolutionistic theories, that underscore the relevant role of chance in biological explanation. What can we learn by the evolutionistic perspective on discovery and human intelligence? In fact, these are within the bounds of lows of conservation of the species and of the natural selection, on the one hand, but also fruit of the individual creativity, on the other.
The reading of the proposed texts and a critical analysis of theoretical concepts will help students appreciate epistemological debate on indeterminacy and, above all, on topics such as the objectivity of knowledge, the psychology of scientific discovery, evolutionism.
Knowing theoretical and philosophical concepts which are at the basis of modern scientific theories is essential if a student’s curriculum is to be complete.
Program
The following topics will be studied, in the subsequent order:
01. The birth of quantum physics and the lack of objectivity of scientific knowledge. Quantum reality is described by a non-deterministic theory and is essentially unpredictable.
02. A new way to think atoms and electrons; the” observables”; wave-mechanics; objects as “relations” or “interactions”; entanglement; the different philosophical quantum interpretations (orthodox, non-orthodox, relational).
03. Psychology of scientific discovery: cognitive bias, methodological opportunities and divergent thinking (D. Kahneman).
04. Darwinian evolutionistic perspectives and the role of “chance” in biological explanation. Natural selection and conservation of the species. Human intelligence and discovery in evolutionistic perspectives.
Bridging Courses
There are no pre-requisites for this course.
Learning Achievements (Dublin Descriptors)
Knowledge and understanding:
After the course, the student is expected to have acquired basic knowledge of the historical and epistemological debate on the conceptual foundations of modern science (theories, questions, methods, scientific instruments). The student is expected to understand elementary and basic philosophical and scientific texts, to face the main classic historical and epistemological questions, to use bibliographies and information systems tools, to know some aspects that will be informed by knowledge of the forefront of his field of study.
Applying knowledge and understanding:
The student is expected to understand and apply his knowledge, to use his problem solving abilities in new or unfamiliar environments within broader (or multidisciplinary) contexts related to his field of study, particularly to face the philosophical questions presents in the history of science. The student is expected to understand the concepts and the theories put forward during the lectures, to be able to put them to use in his own research. The student is expected to be able to demonstrate he has acquired the numerous historical and epistemological interrelations between scientific theories and philosophical conceptions. The student is expected to be able to use appropriately historical and epistemological terms, in teaching or within a research context, and to have acquired the skills necessary to argue effectively.
Making judgements:
The student is expected to have the ability to gather and interpret relevant data (within his field of study) to inform judgements that include reflection on relevant social and scientific issues. The student is expected to be able to demonstrate he has acquired the skills necessary to analyse the texts proposed critically and to elaborate on them personally, making personal judgements. The student is expected to have acquired a correct methodological awareness and to be able to recognize autonomously the main interpretative schools of thought behind history of science.
Communication skills:
The student is expected to be able to demonstrate he has acquired the skills necessary to communicate his conclusions clearly and unambiguously, to specialist and non-specialist audiences, particularly on the main historical, scientific and epistemological debates. The student is expected to communicate on the concepts and the theories put forward during the lectures.
Learning skills:
The student is expected to be able to demonstrate he has acquired awareness of the complexity of the historical and epistemological events, so to study them autonomously. The student is expected to have developed the learning skills to allow him to continue to study in a manner that may be largely self-directed or autonomous.
Teaching Material
The teaching material prepared by the lecturer in addition to recommended textbooks (such as for instance slides, lecture notes, exercises, bibliography) and communications from the lecturer specific to the course can be found inside the Moodle platform › blended.uniurb.it
Supporting Activities
No activities are provided to support the teaching.
The teaching material and specific communication from the lecturer can be found, together with other supporting activities, inside the Moodle platform >blended.uniurb.it
Teaching, Attendance, Course Books and Assessment
- Teaching
Frontal lectures, comments and, where appropriate, debates on questions which are of particular interest to the students, only if they are pertinent to the course.
- Attendance
There are no specific attendance rules. The student is expected to have achieved the formative objectives in the course of his Triennial Degree.
- Course books
In addition to the slides and other electronic teaching material eventually made available by the lecturer inside the Moodle platform, lectures will be on the following books or parts of books:
1) C. Rovelli, Helgoland, London, Allen Lane, 2021.
2) W. Bynum, “The game changer: Einstein”, in A little history of science, New Haven, London, 2012, pp. 196-202 (Cap. 32).
3) D. Kahneman, Thinking, Fast and Slow, London, Allen Lane, 2011, Introduction, Chapter I.
4) E. Mayr, What Makes Biology Unique? Considerations on the Autonomy of a Scientific Discipline, Cambridge, Cambridge University Press, 2004.
5) E. Mayr, The Growth of Biological Thought. Diversity, Evolution and Inheritance, Massachusetts, The Belknap Press of Harvard University Press, 2000.
- Assessment
Oral exams, which enable the examiner to evaluate to what extent the formative objectives have been achieved by the students. The final mark will be determined by taking into account not only of the knowledge acquired by the student (the theories, questions, methods, scientific instruments), but also of his skills in using conceptual and bibliographical tools, also in new or unfamiliar environments, of his ability to use specific terms, to interpret texts critically and to argue effectively. Active participation in the classroom will also contribute to the final evaluation. Autonomous judgements will be particularly well-appreciated.
All this criteria (in terms of knowledge and understanding, applying knowledge and understanding, making judgements, communication skills, learning skills) will have egual wheight in the assessment, and will be well distinguished on a scale of four levels (not sufficient, sufficient, good, excellent).
Definitely, the final mark will be expressed on a range from 18/30 to 30/30. A sufficiently clear exposition, using adeguatly specific terms, of the basic contents, concepts and methods will be enough to obtain a sufficient evaluation and to pass the examination (18/30). The other marks will be calibrated on this basis.
- Disability and Specific Learning Disorders (SLD)
Students who have registered their disability certification or SLD certification with the Inclusion and Right to Study Office can request to use conceptual maps (for keywords) during exams.
To this end, it is necessary to send the maps, two weeks before the exam date, to the course instructor, who will verify their compliance with the university guidelines and may request modifications.
Additional Information for Non-Attending Students
- Teaching
Students that do not attend lectures will study on their own (individually or with others) according to the directions of this Vademecum and will be in contact with the lecturer by e-mail.
- Attendance
A hard and careful study is required.
- Course books
Students that do not attend lectures will follow this programme, in order to prepare to better for exams. In addition to the slides and other electronic teaching material eventually made available by the lecturer inside the Moodle platform, students will study the following books or parts of books:
1) C. Rovelli, Helgoland, London, Allen Lane, 2021.
2) W. Bynum, “The game changer: Einstein”, in A little history of science, New Haven, London, 2012, pp. 196-202 (Cap. 32).
3) D. Kahneman, Thinking, Fast and Slow, London, Allen Lane, 2011, Introduction, Chapter I.
4) E. Mayr, What Makes Biology Unique? Considerations on the Autonomy of a Scientific Discipline, Cambridge, Cambridge University Press, 2004.
5) E. Mayr, The Growth of Biological Thought. Diversity, Evolution and Inheritance, Massachusetts, The Belknap Press of Harvard University Press, 2000.
- Assessment
Oral exams, which enable the examiner to evaluate to what extent the formative objectives have been achieved by the students. The final mark will be determined by taking into account not only of the knowledge acquired by the student (of theories, questions, methods, scientific instruments), but also of his skills in using conceptual and bibliographical tools, also in new or unfamiliar environments, of his ability to use specific terms, to interpret texts critically and to argue effectively. Autonomous judgements will be particularly well-appreciated.
All this criteria (in terms of knowledge and understanding, applying knowledge and understanding, making judgements, communication skills, learning skills) will have egual wheight in the assessment, and will be well distinguished on a scale of four levels (not sufficient, sufficient, good, excellent).
Definitely, the final mark will be expressed on a range from 18/30 to 30/30. A sufficiently clear exposition, using adeguatly specific terms, of the basic contents, concepts and methods will be enough to obtain a sufficient evaluation and to pass the examination (18/30). The other marks will be calibrated on this basis.
- Disability and Specific Learning Disorders (SLD)
Students who have registered their disability certification or SLD certification with the Inclusion and Right to Study Office can request to use conceptual maps (for keywords) during exams.
To this end, it is necessary to send the maps, two weeks before the exam date, to the course instructor, who will verify their compliance with the university guidelines and may request modifications.
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