NNDK19000U Topics in Philosophy of Mathematical Practice
This highly interactive summer school offers students from mathematics and philosophy of mathematics the opportunity 1) to gain knowledge about the central topics in the philosophy of mathematical practice and 2) to gain the basic skills needed in order to practice empirically informed philosophy of mathematical practice themselves.
The course will be organized in two parts, a four-week asynchronous online part (25 hours per week) and a two week synchronous online part (full time).
The asynchronous online part will include reading of research papers, online discussion of topics raised in the papers, online collaboration and supervision in developing problem formulations for final products. The material will primarily be centered on the following four themes from contemporary philosophy of mathematical practice:
- The role of diagrams in mathematical practice
- Proofs as vehicles of communication in mathematical practice
- Experimental aspects of mathematical practice
- Formal aspects of mathematical practice
Furthermore, the students will familiarize themselves with basic theories of empirical data collection during the online part of the course.
The synchronous online part will consist of the following three elements:
- Lectures following up on the four themes in philosophy of mathematical practice covered in the on-line part.
- Workshops on empirical data collection.
- Practical work preparing an empirically informed product in the philosophy of mathematical practice (such as an essay informed by data from e.g. qualitative interviews, a questionnaire or corpus analysis performed by the student).
Students will receive group supervision on their product during the synchronous online part of the course.
After following the course students should have the following skills, knowledge and competences:
The students should be able to collect and analyze empirical material
The students should be able to account for central topics in the philosophy of mathematical practice.
The students should be able to:
- Reflect on the strengths and limitations of empirical methods.
- Discuss and reflect on central topics in philosophy of mathematical practice.
- Produce empirically informed written products in the area of philosophy of mathematics.
Students will be given a collection of research papers and excerpts from text books.
1) BSc in mathematics and knowledge about philosophy.
2) BA in philosophy and knowledge about mathematics.
3) knowledge equivalent to one of the following books:
- Johansen and Sørensen (2014): Invitation til matematikkens videnskabsteori
- Mark Colyvan (2012): An Introduction to the Philosophy of Mathematics
- Class Instruction
- Project work
The student will be given oral feedback of the short presentations made during the synchronous online part of the course, and a short written feedback of the final exam project.
- 7,5 ECTS
- Type of assessment
- Written assignmentTake-home assignment consisting of four small exercises posted during the asynchronous online part of the course and a written project to be produced during the synchronous online part of the course and in the following week. All five parts of the assignment must be handed in no later than friday in the examination week. The assignment will be assessed as a collected whole.
- Exam registration requirements
The student must give and pass two short oral presentations during the synchronous online part of the course.
- All aids allowed
- Marking scale
- passed/not passed
- Censorship form
- No external censorship
One internal examiner
Resubmission of the written assignment. The revised assignment must be submitted by the end of the re-exsamination week following blok 1, 2021.
If the student has not passed the exam registration requirements the student must 1) give and pass an oral presentation of about ½ hours length for the course responsible and 2) hand in a written report that roughly covers the main activities during the on campus part of the course after closer agreement with the course responsible. The presentation must be held and the report handed in at least three weeks before the start of the reexam week.
Criteria for exam assesment
See Learning Outcome
- Course code
- 7,5 ECTS
- Full Degree Master
- Asynchronous online part: 4/7 - 29/7 (4 weeks at 25 study hours per week)
Synchronous online: 1/8 - 12/8 (full time/40 study hours per week)
Individual project: 15/8 - 26/8 (26 hours)
Written project exam assignment, hand in: 26/8
- Course capacity
- Course is also available as continuing and professional education
- Study board
- Study Board of Mathematics and Computer Science
- Department of Science Education
- Faculty of Science
- Mikkel Willum Johansen (3-7c86794f787d733d7a843d737a)
- Henrik Kragh Sørensen (12-706d767a717336737a696f704871766c36737d366c73)