dc.description.abstract |
This study intended to investigate misconceptions and errors commonly made by the
students at primary level, finding out the reasons for these misconceptions and designing
a remedial intervention for removing these misconceptions. The following research
questions were developed to accomplish the task:
• What are the misconceptions of students in learning mathematics at primary
level?
• What are the possible causes of these misconceptions of students in learning
mathematics at primary level?
• How can these misconceptions be rectified / removed?
• How can teachers help the students to learn mathematics in a better way and
remove the targeted misconceptions?
The study was conducted in 12 sample schools and concepts included in the
investigation were not limited to grade IV rather, all contents of mathematics were
included from grade I to IV, excluding grade V. The grade V was excluded for the reason
that the pre-test was administered in the beginning of the grade V study.
The content tested through the pre-test was classified into eight concept areas namely,
numbers, operations on numbers, fractions, operations on fractions, decimals,
measurement, information handling and geometry. It was expected that the study would
focus on misconceptions in few of these eight areas, but the findings of the pre-test and
interviews with the teachers compelled the researcher to include all the eight areas as a
significant number of misconceptions was found in all of the concept areas. The study
was a mixed design approach (quantitative and qualitative). The pre-test and the post-test
provided quantitative data while the interviews with the teachers and sample students
helped to collect the qualitative data. On the basis of identification of the misconceptions and errors through the pre-tests,
four students from each of the 12 schools were interviewed along with their teachers. The
analysis of the qualitative and quantitative data provided insight about the causes of them
is conceptions of students, and to remove these misconceptions a teachers training
program was developed and conducted. At this stage, the study was converted into Pre
test-intervention-post-test design keeping only one school out of the 12 schools as control
group and the remaining 11 as the experimental group.
Key misconceptions include numbers and operations on numbers; these were
considered difficult by the students due to misconceptions regarding numbers’ names
(language problem) and their place value. Fractions were thought as two numbers instead
of part of a whole. Decimals were considered mostly on the basis of digits without having
proper understanding of the place value of the digits written in a decimal number.
Understanding of units for measuring different quantities was not entrenched due to not
using measuring tools practically by the students. Mostly estimation of length, mass and
area were made full of mistakes. Scale for drawing a graph, both line and bar graphs was
not understood; it was seemed that students were having the wrong conception as they
were not trained to draw a graph. Geometry was full of misconceptions starting from
measuring a line segment or drawing a line segment of given measurement. The use of
simple geometrical tools like protractor, straight edge, compass or set squares was felt
difficult by most of the students and their teachers.
The training of the teachers of the experimental group was focused on providing an
opportunity to them to have an experience of doing mathematics as well as consolidating
content including knowledge they were lacking. Misconceptions of the students in
different concept areas were discussed with the teachers. The difference in gain scores of the experimental group students provided evidence
that the students’ achievement improved in most of the concepts after being re taught by
the experimental group teachers. |
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