Investigating how problem solving skills can be developed using a collaborative learning environment

Sonne, Anita

Title: Investigating how problem solving skills can be developed using a collaborative learning environment
Creator: Sonne, Anita
ThesisAdvisor: Graven, Mellony
Subject: Mathematics -- Study and teaching (Elementary) -- South Africa
Subject: Social learning
Subject: Active learning
Subject: Problem solving in children
Subject: Educational equalization -- Research -- South Africa
Date: 2014
Type: Thesis
Type: Masters
Type: MEd
Identifier: vital:1977
Identifier: http://hdl.handle.net/10962/d1013017
Description: This thesis examines whether problem solving strategies develop and improve through working in a collaborative environment and, if so, how. The study explored the way peer-topeer discussions which are focussed on finding solutions to mathematical problems might shape learners' attitudes and participation in mathematical problem solving. I use the Vygotskian (1978) socio-cultural perspective where the process of learning takes place within the Zone of Proximal Development (ZPD). Polya's problem solving heuristics (Polya, 1973) and Kilpatrick's "Instructional Triangle" (Kilpatrick, Swafford & Findell, 2001) provided the analytical framework for the study. Seven grade 7 learners from a Ex-Model C school, volunteered to participate in the study. The data gathering process involved an initial problem solving assessment, a written questionnaire, observations and video recordings of the seven learners during a series of after school problem solving sessions and post intervention learner interviews. The study showed that group discussion can have a positive impact on learners' problem solving in several respects: My key findings point to: Mathematical communication does play a role in development of problem solving strategies. A more knowledgeable other, with regards to Vygotsky's (1978) ZPD and Kilpatrick et al's (2001) instructional triangle is a critical factor in the development of problem solving strategies. All five strands of Kilpatrick et al., (2001), strands for mathematical proficiency are required for correct solutions to be calculated. At times Polya's (1973) steps for problem solving move at a rapid pace and are difficult to notice. These steps develop at different speeds for different people.
Format: 95 leaves, pdf
Publisher: Rhodes University, Faculty of Education, Education
Language: English
Rights: Sonne, Anita

Hits: 2691
Visitors: 2831
Downloads: 228

Collections

RU Department of Education

		Thumbnail	File	Description	Size	Format
View Details			SOURCEPDF	PDF	1 MB	Adobe Acrobat PDF	View Details