Spelling suggestions: "subject:"contexts inn mathematics"" "subject:"contexts iin mathematics""
1 |
A comparison of grade 8 to10 urban and peri-urban learners context preferences for mathematical literacy.Blaauw, Christopher January 2009 (has links)
<p>The study explored the comparison of grade 8 to 10 urban and peri-urban learners&rsquo / contexts preferences in mathematical literacy. There is currently a strong emphasis on the use of contexts for school mathematics. This has been also the case for South Africa when grade 10 learners have to make a choice between mathematics and mathematical literacy as one of their compulsory subjects for grade 10. This study focused more on the use of mathematics in real life situations. Data was collected by using questionnaires developed as part of the Relevance of School Mathematics Education (ROSME) project. The questionnaire dealt with contexts preferred by grade 10 learners from urban and peri-urban areas. The data were analysed using non-parametric statistical techniques. The findings radicate that there were contexts highly preferred by learners from both urban and peri-urban areas / least preferred by learners from both areas, highly preferred by learners from periurban areas but not by learners from urban areas and least preferred by learners from urban areas but not by those from peri-urban areas and vice versa. It is recommended that contexts highly preferred by learners should be incorporated in the learning experiences of learners.</p>
|
2 |
A comparison of grade 8 to10 urban and peri-urban learners context preferences for mathematical literacy.Blaauw, Christopher January 2009 (has links)
<p>The study explored the comparison of grade 8 to 10 urban and peri-urban learners&rsquo / contexts preferences in mathematical literacy. There is currently a strong emphasis on the use of contexts for school mathematics. This has been also the case for South Africa when grade 10 learners have to make a choice between mathematics and mathematical literacy as one of their compulsory subjects for grade 10. This study focused more on the use of mathematics in real life situations. Data was collected by using questionnaires developed as part of the Relevance of School Mathematics Education (ROSME) project. The questionnaire dealt with contexts preferred by grade 10 learners from urban and peri-urban areas. The data were analysed using non-parametric statistical techniques. The findings radicate that there were contexts highly preferred by learners from both urban and peri-urban areas / least preferred by learners from both areas, highly preferred by learners from periurban areas but not by learners from urban areas and least preferred by learners from urban areas but not by those from peri-urban areas and vice versa. It is recommended that contexts highly preferred by learners should be incorporated in the learning experiences of learners.</p>
|
3 |
A comparison of grade 8 to10 urban and peri-urban learners context preferences for mathematical literacyBlaauw, Christopher January 2009 (has links)
Magister Educationis - MEd / The study explored the comparison of grade 8 to 10 urban and peri-urban learners' contexts preferences in mathematical literacy. There is currently a strong emphasis on the use of contexts for school mathematics. This has been also the case for South Africa when grade 10 learners have to make a choice between mathematics and mathematical literacy as one of their compulsory subjects for grade 10. This study focused more on the use of mathematics in real life situations. Data was collected by using questionnaires developed as part of the Relevance of School Mathematics Education (ROSME) project. The questionnaire dealt with contexts preferred by grade 10 learners from urban and peri-urban areas. The data were analysed using non-parametric statistical techniques. The findings radicate that there were contexts highly preferred by learners from both urban and peri-urban areas; least preferred by learners from both areas, highly preferred by learners from periurban areas but not by learners from urban areas and least preferred by learners from urban areas but not by those from peri-urban areas and vice versa. It is recommended that contexts highly preferred by learners should be incorporated in the learning experiences of learners. / South Africa
|
4 |
Preferred contexts for mathematical literacy of Korean grade 8 - 10 learnersKim, Sun Hi January 2006 (has links)
Magister Educationis - MEd / The twenty-first century society demands a high level of mathematical literacy. This drove
Korean educators to evaluate their students using international mathematics tests such as
TIMSS, PISA and IMO. In these tests, Korean students ranked highly among the participating
countries. Korean students, however, had done poorly in the application of mathematics in
daily life situations as well as in their interest in mathematics in co~parison to those of other
countries. Based on these observations, the present study is an investigation on the contexts
which Korean grade 8 to 10 students would prefer to deal with mathematics, in order to
improve these weak points and thus increase their mathematical power.
The aim of this study was thus to investigate mathematical literacy in connection with the
relevance of mathematics and mathematical modelling. The study pays more attention to
mathematics education 111 real life situations. Data was collected using the ROSME
questionnaire that deals with contexts preferred by students for mathematics education.
A sample made up of over 1600 learners in grades 8 to 10 were randomly selected from 21
schools. Data collected from these learners was analysed using Kendall's W mean rank
method in the SPSS 12.0 program since the data for this study were ordinal.
The most important finding of this study was that, "Mathematics that entertains and surprises
us" came up the highest ranked item. This indicates that mathematics education must be
directed towards raising learners' interests. The lowest ranked item was, "Mathematics used to
calculate the number of seats for parliament given to political parties after elections," and this
might indicate among other things that political activity does not attract students' interest in a
society where the concept of well-being is dominant. In general, Korean learners appear to
favour learning mathematics in technological contexts and show less interest in political and
agricultural contexts.
In conclusion, this study suggests that teachers should use contexts that increase learners'
interest in classroom activities. Korea has today become one of the strongest Information
Technology countries. Therefore mathematics curricula and textbooks which are appropriate
to this context must be provided for more efficient mathematics education. Thus, it becomes
imperative that the Korean school system must develop a particular program for nurturing
learners' mathematical power. Furthermore, mathematics education policy makers must
reconsider whether the current education system, Pyungjunhwa Kyoyuk system, should be
used or not.
|
5 |
The contexts which Namibian learners in grades 8 to 10 prefer to use in mathematicsShifula, Loide Ndahafa January 2012 (has links)
<p>One of the key ideas in the research on mathematics education is that the mathematical knowledge that learners acquire is strongly tied to the particular situation in which it is learnt. This study investigated the contexts that learners in grades eight, nine and ten prefer to deal with in the learning of mathematics based on their personal, social, societal, cultural and contextual concerns or affinities. The study is situated in the large-scale project called the Relevance of School Mathematics Education II (ROSMEII), which is concerned with the application and the use of mathematical knowledge and processes in real life situations. It is based on a survey of learners from ten (10) secondary schools in the Oshana and Khomas regions of Namibia. The ten schools that were sampled represent the spectrum of schools in Namibia in both urban and semi-urban areas. The Rasch model of data analysis is employed to provide some insight into the contextual situations learners would like to deal with in their mathematical learning. The data obtained for this study was analysed using the WINSTEPS Version 3.65.0 suite of computer programs. The current study arises from a concern about the absence of the voices of learners in the contextual situations in mathematics selected by adults such as mathematics teachers, inspectorates and curriculum and materials developers. The assumption is that the inclusion of learners&rsquo / insights into mathematics curricular might enhance mathematical learning. The study reveals that school children have an intrinsic desire to learn about mathematical issues embedded in real-life contexts. Several items which Namibian learners have shown interest in are issues they experience in life out of school which are not directly dealt with in school, such as managing personal and financial affairs, health matters, technology, construction, engineering and government financial matters. However, learners indicated to have a low preference in contexts like lotteries and gambling, national and international politics, cultural products, all kinds of pop music and dancing. This thesis contends that the inclusion of contexts in the mathematics curriculum which are of interest to learners will go a long way in facilitating good performance of learners in mathematics.</p>
|
6 |
The contexts which Namibian learners in grades 8 to 10 prefer to use in mathematicsShifula, Loide Ndahafa January 2012 (has links)
<p>One of the key ideas in the research on mathematics education is that the mathematical knowledge that learners acquire is strongly tied to the particular situation in which it is learnt. This study investigated the contexts that learners in grades eight, nine and ten prefer to deal with in the learning of mathematics based on their personal, social, societal, cultural and contextual concerns or affinities. The study is situated in the large-scale project called the Relevance of School Mathematics Education II (ROSMEII), which is concerned with the application and the use of mathematical knowledge and processes in real life situations. It is based on a survey of learners from ten (10) secondary schools in the Oshana and Khomas regions of Namibia. The ten schools that were sampled represent the spectrum of schools in Namibia in both urban and semi-urban areas. The Rasch model of data analysis is employed to provide some insight into the contextual situations learners would like to deal with in their mathematical learning. The data obtained for this study was analysed using the WINSTEPS Version 3.65.0 suite of computer programs. The current study arises from a concern about the absence of the voices of learners in the contextual situations in mathematics selected by adults such as mathematics teachers, inspectorates and curriculum and materials developers. The assumption is that the inclusion of learners&rsquo / insights into mathematics curricular might enhance mathematical learning. The study reveals that school children have an intrinsic desire to learn about mathematical issues embedded in real-life contexts. Several items which Namibian learners have shown interest in are issues they experience in life out of school which are not directly dealt with in school, such as managing personal and financial affairs, health matters, technology, construction, engineering and government financial matters. However, learners indicated to have a low preference in contexts like lotteries and gambling, national and international politics, cultural products, all kinds of pop music and dancing. This thesis contends that the inclusion of contexts in the mathematics curriculum which are of interest to learners will go a long way in facilitating good performance of learners in mathematics.</p>
|
7 |
The contexts which Namibian learners in grades 8 to 10 prefer to use in mathematicsShifula, Loide Ndahafa January 2012 (has links)
Magister Educationis - MEd / One of the key ideas in the research on mathematics education is that the mathematical knowledge that learners acquire is strongly tied to the particular situation in which it is learnt. This study investigated the contexts that learners in grades eight, nine and ten prefer to deal with in the learning of mathematics based on their personal, social, societal, cultural and contextual concerns or affinities. The study is situated in the large-scale project called the Relevance of School Mathematics Education II (ROSMEII), which is concerned with the application and the use of mathematical knowledge and processes in real life situations. It is based on a survey of learners from ten (10) secondary schools in the Oshana and Khomas regions of Namibia. The ten schools that were sampled represent the spectrum of schools in Namibia in both urban and semi-urban areas. The Rasch model of data analysis is employed to provide some insight into the contextual situations learners would like to deal with in their mathematical learning. The data obtained for this study was analysed using the WINSTEPS Version 3.65.0 suite of computer programs. The current study arises from a concern about the absence of the voices of learners in the contextual situations in mathematics selected by adults such as mathematics teachers, inspectorates and curriculum and materials developers. The assumption is that the inclusion of learners’ insights into mathematics curricular might enhance mathematical learning. The study reveals that school children have an intrinsic desire to learn about mathematical issues embedded in real-life contexts. Several items which Namibian learners have shown interest in are issues they experience in life out of school which are not directly dealt with in school, such as managing personal and financial affairs, health matters, technology, construction, engineering and government financial matters. However, learners indicated to have a low preference in contexts like lotteries and gambling, national and international politics, cultural products, all kinds of pop music and dancing. This thesis contends that the inclusion of contexts in the mathematics curriculum which are of interest to learners will go a long way in facilitating good performance of learners in mathematics. / South Africa
|
Page generated in 0.0782 seconds