Learning to solve problems that you have not learned to solve: Strategies in mathematical problem solving
Sammanfattning
This thesis aims to contribute to a deeper understanding of the relationship between problem-solving strategies and success in mathematical problem solving. In its introductory part, it pursues and describes the term strategy in mathematics and discusses its relationship to the method and algorithm concepts. Through these concepts, we identify three decision-making levels in the problem-solving process.
The first two parts of this thesis are two different studies analysing how students’ problem-solving ability is affected by learning of problem-solving strategies in mathematics. We investigated the effects of variation theory-based instructional design in teaching problem-solving strategies within a regular classroom. This was done by analysing a pre- and a post-test to compare the development of an experimental group’s and a control group’s knowledge of mathematics in general and problem-solving ability in particular. The analysis of the test results show that these designed activities improve students’ problem-solving ability without compromising their progress in mathematics in general.
The third study in this thesis aims to give a better understanding of the role and use of strategies in the mathematical problem-solving processes. By analysing 79 upper secondary school students’ written solutions, we were able to identify decisions made at all three levels and how knowledge in these levels affected students’ problem-solving successes. The results show that students who could view the problem as a whole while keeping the sub-problems in mind simultaneously had the best chances of succeeding.
In summary, we have in the appended papers shown that teaching problem-solving strategies could be integrated in the mathematics teaching practice to improve students mathematical problem-solving abilities.
Delarbeten
Fülöp, E. (2015). Teaching problem-solving strategies in mathematics. LUMAT, Vol 3, No 1. Fülöp, E. (2019). Developing problem-solving abilities by learning problem-solving strategies: An exploration of teaching intervention in authentic mathematics classes. Under review. Fülöp, E. (2019). Connections between chosen problem-solving strategies and success in mathematical problem solving. Under review.
Examinationsnivå
Doctor of Philosophy
Universitet
Göteborgs universitet. Naturvetenskapliga fakulteten
Institution
Department of Mathematical Sciences ; Institutionen för matematiska vetenskaper
Disputation
Fredagen den 06 september 2019, kl. 10.00, sal Pascal, Chalmers Tvärgata 3
Datum för disputation
2019-09-06
E-post
fuevi@hotmail.com
Datum
2019-08-16Författare
Fülöp, Éva
Nyckelord
Problem-solving strategies
Problem-solving ability
Variation theory
Design principles
Classroom teaching
Design-based research (DBR)
Publikationstyp
Doctoral thesis
ISBN
978-91-7833-536-7
978-91-7833-537-4
Språk
eng