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dc.contributor.authorStenberg, Ronny
dc.date.accessioned2016-10-03T07:49:03Z
dc.date.available2016-10-03T07:49:03Z
dc.date.issued2016
dc.identifier.urihttp://hdl.handle.net/11250/2412392
dc.descriptionMasteroppgave matematikkdidaktikk – Universitetet i Agder 2016nb_NO
dc.description.abstractThe main theme for the research described in this thesis is early algebra. Early algebra is a phase that could fit the gap between arithmetic and algebra. Early algebra includes algebraic reasoning, such as analyzing relationships between quantities, noticing structure, studying change, or generalizing, without a need to use symbols. In my Theoretical Frame, I define the terms early algebra, algebraic thinking, and generalization; I explain the differences between early algebra and pre-algebra, and I go into the relationships between arithmetic and algebra. To gain insight into early algebra, I have studied how pupils in 6th grade (approx. 12 years old) reason and how they generalize when they play a number game on the computer, called Beads on a String. This game is about a row of colorful beads (the row contains 4 – 10 beads), and the pupils must predict the position of the beads when this row is repeated many times. When analyzed algebraically, there are four variables in this game. The game consists of ten tasks. My research question was: - How do pupils in the 6th grade reason when they play Beads in a Chain, and how do they generalize? In this study I used a qualitative research approach in the form of classroom observation, where pupils worked together in groups of two or three with the game on a computer. There were seven groups. The pupils were from a school in a small town near Kristiansand. I used a screen capturing-program that produces a video of what the pupils did on the screen together with what they communicated about while they worked. I was present in the classroom for two lessons hours and afterwards I conducted an interview with each of the groups. I performed a data reduction by first going through all video materials and making an overview of the strategies the pupils used. Thereafter, I selected episodes for transcription and detailed analysis. I selected the episodes aiming at analyzing the variation in the solution strategies the pupils used. The results showed a great variation in how the pupils reasoned when they solved the tasks and that there was great diversity in the solution strategies they used. Some strategies were more naïve, while other strategies showed clearly algebraic thinking. I observed generalizations across all four variables that I had identified in the game. The game was accessible to all pupils, whether perceived as lower or higher achievers by their teacher, and it was remarkable that some of the lower achieving pupils solved the tasks efficiently through creative strategies that showed their generalizing abilities. My study points out that it is necessary to have a broad understanding of what algebraic thinking is. With an increasing use of PCs and games in the teaching of mathematics, we can find new ways to enable pupils to reason algebraically. My study revealed that algebraic reasoning can motivate them and not least what kind of generalizations they can make.nb_NO
dc.language.isonobnb_NO
dc.publisherUniversitetet i Agder ; University of Agdernb_NO
dc.subjectmatematikkundervisningnb_NO
dc.subjecttidlig algebranb_NO
dc.subjectmellomtrinnetnb_NO
dc.subject.classificationMA502
dc.titleTidlig algebra : en studie av tidlig algebra med elever på 6. trinnnb_NO
dc.typeMaster thesisnb_NO
dc.subject.nsiVDP::Mathematics and natural science: 400::Mathematics: 410nb_NO
dc.subject.nsiVDP::Social science: 200::Education: 280::Subject didactics: 283nb_NO
dc.source.pagenumberVIII, 77 s.nb_NO


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