Mathematical reasoning can be considered to be the pursuit of a line of
enquiry to produce assertions and develop an argument to reach and justify
conclusions. This involves processes such as conjecturing, generalising and
forming arguments. The pursuit of a line of mathematical reasoning is not a
routine process and perseverance is required to overcome difficulties. There is
a lack of research on pedagogy to foster children’s perseverance in
mathematical reasoning, hence this study sought to answer the research
question: how can primary teachers improve children’s perseverance in
mathematical reasoning?
The study took place in two year 6 classes in different English schools. The
study group comprised eight children, purposively selected for their limited
capacity to persevere in mathematical reasoning. An action research
approach was used to develop and evaluate two interventions. Data relating to
the children’s cognitive and affective responses and the focus of their
attention, a conative component, were collected by observation and interview.
Data analysis synthesised the children’s reasoning processes with their
affective responses and their conative focus. The use of this tripartite
psychological classification to analyse children’s mathematical reasoning
offered a new approach to analysing the interplay between cognition and
affect in mathematics learning and revealed the role that engagement and
focus play in both restricting and enabling children’s perseverance in
mathematical reasoning.
The interventions comprised providing children with representations that could
be used in a provisional way and embedding a focus on generalising and
convincing in mathematics lessons. These enabled children to improve their
perseverance in mathematical reasoning; they were able to strive to pursue a
line of enquiry and progress from making trials and spotting patterns to
generalising and forming convincing arguments.
This study found that children were not necessarily aware of when they
encountered a difficulty. This lack of cognisance impacted on their capacity to
apply the self-regulatory actions needed to monitor and adapt their use of
reasoning processes. One outcome of this was that they tended towards
repetitious actions, in particular, creating multiple trials even when they had
spotted and formed conjectures about patterns. Their perseverance in
mathematical reasoning was further compromised by their enjoyment of
repetitious actions.
When the children engaged in activities involving reasoning, their common
affective response was pleasure, even in instances when they demonstrated
limited perseverance. However, when they were able to persevere in
reasoning so that they generalised and formed convincing arguments, they
expressed pride and satisfaction. They attributed these emotions to their
improved mathematical understanding. The bi-directional interplay between
children’s cognition and affect in mathematics is discussed in literature;
however, the impact of children’s focus on their cognitive understanding and
affective experience augments existing literature.
Date of Award | Oct 2017 |
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Original language | English |
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Awarding Institution | |
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Improving children’s perseverance in mathematical reasoning: creating conditions for productive interplay between cognition and affect
Barnes, A. (Author). Oct 2017
Student thesis: Doctoral Thesis