Citation
Abu Bakar, Suriati
(2019)
Factors influencing mathematical problem solving performance among Malaysian matriculation students.
Masters thesis, Universiti Putra Malaysia.
Abstract
This research was conducted to identify the relationship between mathematics beliefs,
mathematics attitude, mathematics self-efficacy, metacognitive skills and
mathematical problem solving performance among Malaysian matriculation students. For this
purpose, a total of 312 matriculation students from three matriculation colleges were
selected as respondents. The data were analysed by using IBM SPSS. All the independent
variables were measured using a questionnaire while mathematical problem solving
performance was measured using a mathematical test. A descriptive analysis was carried out to
obtain both the mean and standard deviation of the variables. The findings showed that
students had more positive beliefs and positive attitude in mathematical problem solving.
Besides, students also had shown increase in mathematics self-efficacy and metacognitive
skills in mathematical problem solving. Based on the analysis of the mathematical problem solving
test, it was revealed that majority of the students performance in solving non-routine
problems is still at unsatisfactory level. The outcomes of this research showed that their ability
to understand problem, to plan a solution and execute correct answer are low.
There was a significant positive correlation between mathematics beliefs (r=0.386**, p=0.000),
attitude towards mathematics (r=0.489**, p=0.000), mathematics self- efficacy (r=0.484**,
p=0.000) and metacognitive skills (r=0.455**, p=0.000) towards mathematical problem solving
performance. Further statistical tests to determine factors influencing mathematical problem
solving performance revealed that among these variables, mathematics self-efficacy does
not contribute significantly to mathematical problem solving performance. Results showed that
metacognitive skills (β=0.284, p=0.000) has the biggest contribution followed by
mathematics attitude (β=0.251, p=0.000) and mathematics beliefs (β=0.132, p=0.022). This result
identified
that the final three predictors model explained 31.1% of the variation in mathematical problem solving performance. As a result, from these findings, it is suggested that
problem solving must be included as part of mathematics matriculation syllabus so
that students will have the opportunity to improve their problem solving abilities.
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