Relevant bibliographies by topics / Primary mathematics in indonesia

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Academic literature on the topic 'Primary mathematics in indonesia'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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Journal articles on the topic "Primary mathematics in indonesia"

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Eric, Chan Chun Ming, Wanty Widjaja, and Ng Kit Ee Dawn. "Exemplifying a Model-Eliciting Task for Primary School Pupils." Southeast Asian Mathematics Education Journal 1, no. 1 (November 28, 2011): 65–74. http://dx.doi.org/10.46517/seamej.v1i1.11.

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Mathematical modelling is a field that is gaining prominence recently in mathematics education research and has generated interests in schools as well. In Singapore, modelling and applications are included as process components inrevised 2007 curriculum document (MOE, 2007) as keeping to reform efforts. InIndonesia, efforts to place stronger emphasis on connecting school mathematicswith real-world contexts and applications have started in Indonesian primary schools with the Pendidikan Realistik Matematik Indonesia (PMRI) movement a decade ago (Sembiring, Hoogland, Dolk, 2010). Amidst others, modelling activities are gradually introduced in Singapore and Indonesian schools to demonstrate the relevance of school mathematics with real-world problems. However, in order for it to find a place in the mathematics classroom, there is aneed for teacher-practitioners to know what mathematical modelling and what amodelling task is. This paper sets out to exemplify a model-eliciting task that has been designed and used in both a Singapore and Indonesian mathematicsclassroom. Mathematical modelling, the features of a model-eliciting task, and its potential and advice on implementation are discussed.
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Ekawati, Rooselyna, Susanti Susanti, and Jian-Cheng Chen. "PRIMARY STUDENTS’ MATHEMATICAL LITERACY: A CASE STUDY." Infinity Journal 9, no. 1 (February 13, 2020): 49. http://dx.doi.org/10.22460/infinity.v9i1.p49-58.

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This paper analyses Indonesian primary students’ Mathematical literacy in solving PISA like problems. The instruments were administered to 254 sixth graders from five different regions in Surabaya, Indonesia with various social background. There were three contents (quantity, Uncertainty and data, space and shape) and three level problems (High, Medium and Easy) used to develop Mathematics Literacy Test (MLT). Three students’ categories (Good, Middle and Low) were established by cluster analysis methodology. The most students’ challenge on MLT was space and shape as well as uncertainty and data’s content problem. The description of profile of primary students’ mathematical literacy related to MLT are worthy to suggest the design of learning lines for primary students to have more opportunity to learn and solve Mathematics literacy problem.
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Ezra Putranda Setiawan. "STATISTICAL LITERACY IN PRIMARY SCHOOL MATHEMATICS CURRICULA: HISTORICAL REVIEW AND DEVELOPMENT." Jurnal Pendidikan dan Kebudayaan 6, no. 1 (June 26, 2021): 1–20. http://dx.doi.org/10.24832/jpnk.v6i1.1915.

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Literasi statistika merupakan kemampuan penting untuk menghadapi revolusi industri 4.0. Penelitian ini mengumpulkan informasi sejauh mana kemampuan literasi statistika didukung oleh kurikulum matematika untuk Sekolah Dasar di Indonesia. Studi dokumentasi dilakukan pada beberapa naskah kurikulum, yakni Kurikulum Berbasis Kompetensi 2004, Kurikulum Tingkat Satuan Pendidikan 2006, Kurikulum 2013, serta revisi Kurikulum 2013 (2016, 2018, dan 2020). Sebagai pembanding, dianalisis pula Cambridge Primary Mathematics Curriculum dan kurikulum 1975. Hasil penelitian menunjukkan bahwa perhitungan statistik deskriptif dan pembuatan diagram dijumpai pada semua kurikulum matematika SD tahun 2004 hingga 2020. Pada kurikulum 2013 dan sesudahnya, dijumpai pula kompetensi terkait pengumpulan data dan interpretasi data. Adapun kompetensi terkait peluang hanya dijumpai pada kurikulum 2013, Cambridge, dan kurikulum 1975. Masih diperlukan pengembangan kurikulum pada kompetensi proses pemecahan masalah statistika serta pendalaman terkait penggunaan statistik deskriptif dan diagram secara tepat. Statistical literacy is an essential competence to face the 4.0 industrial revolution. This study aims to collect information on how statistical literacy skills accounted in the Indonesian primary school mathematics curriculum. We study several curriculum documents' that had been used in Indonesia, namely the 2004 Competency-Based Curriculum, the 2006 Education Unit Level Curriculum, the 2013 Curriculum, and the revised 2013 Curriculum (2016, 2018, and 2020). We also analyzed the Cambridge Primary Mathematics Curriculum and the 1975 Indonesian curriculum. We find that calculation of descriptive statistics and chart making appeared on all Indonesian primary school mathematics curricula. The 2013 curriculum and its successor also contains some competencies related to data collection and interpretation. Probability-related competence is found only on the 2013 curriculum, the 1975 curriculum, and the Cambridge Curriculum. Further curriculum development should be focused on the statistical problem-solving competence and appropriate use of descriptive statistics and charts.
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Zulkardi, Zulkardi. "Designing Joyful and Meaningful New School Mathematics Using Indonesian Realistic Mathematics Education." Southeast Asian Mathematics Education Journal 3, no. 1 (December 28, 2013): 17–26. http://dx.doi.org/10.46517/seamej.v3i1.22.

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A new issue in education in Indonesia is the change of curriculum in 2013. This paper presents what are the changes in content, media, method, and evaluation of mathematics subject at the school levels. As informed by the minister of education and culture in the national newspaper, the changes in the primary school mathematics will connect and integrate with science. This might increase the understanding of students in both the concept of mathematics and the application of mathematics in their daily lives that is also related to science. Hence, mathematics teachers need a way to design meaningful learning materials to integrate the two subjects. It is called thematic-integrated approach or one intertwined among strands or subjects. This article will discuss these both approaches. The former is mentioned in the new curriculum while the latter is one of five characteristics of Indonesian Realistic Mathematics Education (PMRI). Then the current development of PMRI after 12 years of implementation and dissemination in Indonesia will be discussed. During this discussion it will reveal how to design and implement joyful and meaningful mathematics learning materials by using the Indonesia context or culture.
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Zulkardi, Zulkardi. "CELEBRATION OF A DECADE OF JME." Journal on Mathematics Education 10, no. 1 (January 2, 2019): v—vi. http://dx.doi.org/10.22342/jme.10.1.6916.v-vi.

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Journal on Mathematics Education (JME), formerly called Indonesian Mathematical Society Journal on Mathematics Education (IndoMS-JME), is the first international journal on mathematics education in Indonesia. The primary goal of the journal is to support and facilitate mathematics educators and researchers either from Indonesia or other countries to publish their works in mathematics education. In 2010, Professor Zulkardi, the vice president of the Indonesian Mathematical Society (IndoMS) as well as a mathematics educator from the Universitas Sriwijaya started the JME. Professor Widodo, the president of IndoMS at that time, launched the first volume of the JME at the opening of National Conference on Mathematics in Universitas Negeri Manado, June 30th, 2010. This editorial focuses not only on the celebration of the achievements and challenges of JME but also the process of the growth of the JME from a local journal, national, and then to be a reputable international journal.First, as a local journal, JME started with only five articles in the first volume. Luckily, an international expert in mathematics education wrote and published their ideas. Lee Peng Yee, a professor at the National Institute of Education (NIE) Singapore, wrote an article about how to design a mathematics curriculum. Also, Professor Sembiring, from the Institut Teknologi Bandung, wrote about the history of Realistic Mathematics Education in Indonesia. Later on, many authors from various countries published their papers in the next volumes. Some of the well-known researchers in mathematics education have contributed to the JME, such as Professor Berinderjeet Kaur from Singapore; Kaye Stacey, Bardini, and Tom Lowrie from Australia; Christa Kaune and Elmar Cohort from Germany; Edyta Nowinska from Poland; Koeno Gravemeijer, Maarten Dolk, Dolly and Frans van Gallen from the Netherlands. The other authors are from the Kingdom of Saudi Arabia, Brunei Darussalam, Indonesia, Turkey, Ghana, United States, and Taiwan. Second, the JME is nationally accredited by the Ministry of Research, Technology, and Higher Education since September 2015. A year before, the Directory Open Access Journal (DOAJ) and ERIC databases started to index the articles from the JME.Finally, after waiting for 20 months since the application submitted, the JME is accepted for the Scopus inclusion since September 2018, addressing the JME as one of the reputable international journals from Indonesia. After another three months, Elsevier agreed to cover all articles since volume 9.1 in the Scopus database. In this celebration moment, as the editor in chief, I would like to say thank you very much to all local staffs, managing editors, reviewers, as well as editorial board members either from abroad or Indonesia who have done excellent work in making JME well known and internationally recognized. Starting from January 2019, JME publishes three editions on each volume.Finally, in the future, JME has an effort to improve the quality of publication both management and the content of the articles. Also, JME has a task to fulfil the requirements to be indexed in the Web of Science. Of course, this is not an easy task, especially for JME team.
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Assagaf, Said Fachry, Suradi Tahmir, and Muhammad Dinar. "Solving Mathematics Olympiad Problems Training for Primary School Teachers in Bulukumba District." Mattawang: Jurnal Pengabdian Masyarakat 1, no. 1 (October 26, 2020): 50–54. http://dx.doi.org/10.35877/454ri.mattawang170.

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This is elementary school teacher training to solve mathematics olympiad problems in Bulukumba district. The purpose of this training is to (1) provide information about mathematics olympiad in Indonesia (2) training teacher to solve mathematics olympiad problems, and (3) motivate primary teachers to conduct olympiad class in their school. The method is divided into two, namely the presentation and the independent tasks. The presentation focuses on the types of math competitions and the types of Olympic problems. Independent task aims to create and solve mathematics Olympiad problems for elementary school level. In addition, motivation was also being concerned in this training. The teachers were expected to use the problems in their mathematics class and also to identify students who potentially have ability join in mathematics competition. Abstrak Pengabdian ini berupa pelatihan olimpiade matematika tingkat Sekolah Dasar yang diperuntukkan bagi Guru Sekolah Dasar di Kabupaten Bulukumba. Tujuan pengabdian ini adalah untuk (1) memberikan pengetahuan terkait pelaksanaan olimpiade matematika di Indonesia (2) memberikan pemahaman terkait soal-soal olimpiade matematika, dan (3) memberikan motivasi kepada guru untuk melakukan pembimbingan olimpiade. Metode pelaksanaan terbagi atas dua yakni metode ceramah dan metode kerja mandiri. Metode ceramah berfokus kepada materi tentang jenis jenis kompetisi matematika dan jenis jenis soal olimpiade. Kerja mandiri bertujuan untuk membuat dan menyelesaikan soal olimpiade matematika tingkat SD. Selain itu, motivasi juga diberikan agar guru dapat mengadopsi soal tersbeut dalam kegiatan pembelajaran serta mencari bibit unggul yang dapat diikutkan untuk berkompetisi.
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Wijaya, Kevin, Fransiskus X. Ivan, and Adre Mayza. "The Relationship Between Approximate Number System and Mathematics Competency in Indonesian Primary School Children." Advanced Science Letters 24, no. 8 (August 1, 2018): 6259–64. http://dx.doi.org/10.1166/asl.2018.12708.

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The purpose of this study is to investigate the relationship between Approximate Number System (ANS), a cognitive system which represents and estimates the cardinality of a set, and mathematics competency of primary school children. Many findings on ANS and its relations with mathematics competency showed inconsistency. This research is the first of its kind in Indonesia. 318 fourth and fifth-grade primary school students were instructed to perform non-symbolic (dots) comparison task to measure their Weber fraction (w), accuracy (percentage correct), and response time (ms) which are the measurement for ANS acuity. Mathematics competencies of the students were taken from school’s report card and the data were standardized for each school separately. Correlation and regression linear analysis were conducted to find the relationship between ANS acuity and mathematics’ competency. Analysis showed there was a weak but significant (p < 0.05) correlation between two measurements of ANS acuity, namely the Weber fraction and accuracy, with mathematics competency, but not response time (p > 0.05). Further analysis with linear regression showed there was no relationship between the two variables and mathematics score, which disproves this correlation. This study shows that there is no relationship between children’s ANS acuity and mathematics competency. Intrinsic factors such as children’s attention, engagement, and motivation, also methodological aspect needed further consideration. Future studies are needed to investigate the methodological aspect related to the measurement of ANS and mathematics’ competency as there is no ‘gold standard’ yet to measure ANS.
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Sri Padmi, Russasmita. "Challenging primary school students’ attitude toward calculators." JRAMathEdu (Journal of Research and Advances in Mathematics Education) 5, no. 3 (August 14, 2020): 289–303. http://dx.doi.org/10.23917/jramathedu.v5i3.10061.

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Calculators are a viable option for educational technology in developing countries due to its affordability and accessibility; it is also supported by literature to have positive effects on the students’ acquisition of mathematics concepts and skills positively. However, the stakeholders of education in Indonesia often stigmatize the use of calculators in mathematics classrooms, especially in primary school. This is in contrast with the policy of many developing countries which include calculator as one of the educational technologies to be used in the classroom. This study aims to investigate the effect of calculator-enhanced mathematics lessons on the attitude of primary school students’. Fourth-grade students (n = 95) in four separate schools with minimum calculator experience participated in this study. The questionnaire was administered before and after the lesson to record their attitude. The use of a well-established scale ensured validity, while the Cronbach-Alpha score confirmed reliability. Data analysis was conducted through the comparison of mean value between pre- and post-questionnaires scores. The finding suggests that while the effect on attitude toward mathematics is somewhat mixed, there is a significant improvement in the students’ attitude toward using calculators to learn mathematics. Calculator-enhanced mathematics lessons help the students foster more positive attitudes toward calculators. The finding of the present study is expected to help teachers to challenge the stigma about calculator and thus can benefit from calculator to enhance their lesson.
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Susanto, Herry Agus, Hobri Hobri, and Theresia Kriswianti Nugrahaningsih. "Developing a Handbook on Multimedia Integration in Mathematics Teaching for Indonesian Primary School Students." International Journal of Education in Mathematics, Science and Technology 9, no. 2 (March 7, 2021): 236–51. http://dx.doi.org/10.46328/ijemst.1550.

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This study has developed a digital mathematics handbook that helps students to strengthen their mathematical skills at the elementary level of education. A survey of mathematics teachers collected data. In developing an integration manual on technology based on a survey of the state of technological integration in schools, it employed a research and development (RD) approach. A number of 24 teachers participated in the material creation. The multimedia materials produced during the trial were developed and used. Participants consisted of primary learning children. Results have shown that the trainers' preferred theory is undergraduate, and most of them have a poor capacity to integrate creativity into a research analysis. In the presentation of the under-graduates in mathematics the material produced was extremely good.
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Hutajulu, Masta, and Marchasan Lexbin E.J.R. "ANALISIS PENERAPAN PEMBELAJARAN MATEMATIKA BERBASIS PMRI PADA SEKOLAH DASAR DI KOTA BANDUNG." P2M STKIP Siliwangi 3, no. 1 (May 31, 2016): 45. http://dx.doi.org/10.22460/p2m.v3i1p45-52.477.

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The research is conducted to observe if Mathematics teacher who use PMRI base consistently apply the characteristic especially to students of grade 4 primary. The purpose of this research is to give contribution to all Mathematics teachers who apply PMRI. The data collection technique that use is observation method. The results of research are: 1) the application of PMRI in collaborator school (grade 4 primary) is consistent to the characteristics of PMRI. 2) Mathematics teachers who apply PMRI use the method according to the standard.Keyword: Realistic Mathematics Education of Indonesia (PMRI)
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Dissertations / Theses on the topic "Primary mathematics in indonesia"

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Pardjono, [none], and mikewood@deakin edu au. "The Implementation of student active learning in primary mathematics in Indonesia." Deakin University. School of Scientific and Developmental Studies, 1999. http://tux.lib.deakin.edu.au./adt-VDU/public/adt-VDU20051017.134922.

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Twenty years after the first pilot projects began to develop Student Active Learning (SAL) in Indonesia, and four years since it was adopted for use in the last provinces, this research investigates the implementation of Student Active Learning in Indonesian primary mathematics classrooms. A study of the relevant literature indicates that teaching based on constructivist principles is unlikely to be implemented well in mathematics classrooms unless there are high quality teachers, readily available manipulative materials, and a supportive learning environment. As Indonesian schools often lack one or more of these aspects, it seemed likely that Student Active Learning principles might not be ‘fully’ implemented in Indonesian primary mathematics classrooms. Thus a smaller scale, parallel study was carried out in Australian schools where there is no policy of Student Active Learning, but where its underlying principles are compatible with the stated views about learning and teaching mathematics. The study employed a qualitative interpretive methodology. Sixteen primary teachers from four urban and four rural Indonesian schools and four teachers from two Victorian schools were observed for four mathematics lessons each. The twenty teachers, as well as fourteen Indonesian headteachers and other education professionals, were interviewed in order to establish links between the background and beliefs of participants, and their implementation of Student Active Learning. Information on perceived constraints on the implementation of SAL was also sought. The results of this study suggest that Student Active learning has been implemented at four levels in Indonesian primary mathematics classrooms, ranging from essentially no implementation to a relatively high level of implementation, with an even higher level of implementation in three of the four Australian classrooms observed. Indonesian teachers, headteachers and supervisors hold a range of views of SAL and also of mathematics learning and teaching. These views largely depended on their in-service training in SAL and, more particularly, on their participation in the PEQIP project Typically, participants’ expressed views of SAL were at the same or higher level as their views of mathematics learning and teaching, with a similar pattern being observed in the relationship between these latter views and their implementation of SAL principles. Three factors were identified as influencing teacher change in terms of implementation of SAL: policy, curricular and organisational, and attitudes. Recommendations arising from this study include the adoption of reflection as an underlying principle in the theory of SAL, the continuation and extension of PEQIP type projects, changes in government policy on curriculum coverage and pre-service teacher training, and more support for teachers at the school and local authority levels.
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Sofendi. "The effects of groupwork on mathematics attainment in Indonesian primary schools." Thesis, University College London (University of London), 1999. http://discovery.ucl.ac.uk/10021973/.

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The purpose of this study was to investigate the effects of pupils working in small groups on Mathematics attainment of year-three pupils in ten public primary schools in Palembang, Indonesia. In the intervention group, pupils carried out Mathematics exercises by discussing and helping each other in mixed ability groups while those in the comparison group did the Mathematics exercises individually. This study used a non-equivalent control group design. To investigate the effects of the differences in classroom pedagogy, Mathematics test had to be devised and its validity and reliability established before the intervention research could be carried out. Children and teachers in the intervention and comparison groups were as similar as possible. In addition, short questionnaires for teachers and intervention group pupils were also administered to obtain their views about the new classroom pedagogy. Differences on pupils' Mathematics attainment were investigated by assessing the pupils at two time periods: pre-test (at the beginning of the term) and post-test (at the end of the term). The views of teachers and intervention group pupils were collected at the end of the term. The main data analysis was conducted to assess the contribution of pre-test scores, intervention/comparison group, gender and school to children's post-test scores. The views of teachers and pupils were sought as part of postintervention evaluation. This study found that the pre-test was highly predictive of the outcome. After controlling for pre-test scores, children in the intervention group scored significantly higher than those in the comparison group. There were no gender differences but there were variations in the effectiveness of individual schools. All intervention group teachers reported that the pupils learned more Mathematics under the intervention and most of them would use the method for future teaching practice. In addition, most of intervention group pupils liked to work in the small groups, liked to help each other and believed they learned more Mathematics in the small groups.
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Fauzan, Ahmad. "Applying realistic mathematics education (RME) in teaching geometry in Indonesian primary schools." Enschede : University of Twente [Host], 2002. http://doc.utwente.nl/58707.

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Baker, Nancy Jean. "Integrating mathematics in the primary classroom." CSUSB ScholarWorks, 1994. https://scholarworks.lib.csusb.edu/etd-project/867.

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Taylor, Denise. "The role of commercial mathematics schemes in primary mathematics teaching." Thesis, University of York, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.288795.

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Finlayson, Helen M. "LOGO, mathematics and upper primary school children." Thesis, University of Edinburgh, 1986. http://hdl.handle.net/1842/6629.

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This study was set up to assess the contribution that a computer modelling approach using the language LOGO could make to the quality of mathematics learning in primary school children. Following a constructivist theory of mathematical learning it is argued that many problems children have with their mathematics results from instrumental learning without understanding, rather than relational learning. LOGO was developed, in part, to provide a learning environment for children to investigate mathematical ideas and thus develop their own understanding. Previous research has not provided much evidence that this happens, nor specified what mathematical learning could be expected to take place and what pedagogic approach could bring it about. Other questions relating to the maturity of the children and their aptitude for programming have similarly been neglected. This study was set up to identify the mathematical ideas intrinsic to Turtle Geometry and to explore the conditions under which this learning could best be fostered. The study was carried out in three phases. The first phase considered the constraints of maturity and the need to program on the learning of 9 and 11 year old children. The second phase of the study followed up the programming of the older children, to see what mathematics they were encountering, and what sort of activities encouraged them to think mathematically. Pre and post tests were used to identify the mathematical learning which was taking place. In Phase III a control group was used to identify the particular mathematical learning which could be attributed to LOGO experience, and to assess the transfer of mathematical learning from the LOGO context to novel problem solving. The first two phases revealed considerable mathematical activity intrinsic to Turtle Geometry. The need to learn some simple programming apparently did not present a barrier to mathematical investigation. The test results in the third phase showed that the children had deepened their understanding of angles, variables and general process aspects of mathematics through using LOGO. The performance of the children on the computers was monitored and was found to be revealing of their current mathematical understanding.
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Lawrence, Catharine. "Leading primary mathematics : preparation, policy and practice." Thesis, University of Kent, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.432823.

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Schmitt, Esme. "Pedagogic scaffolding practices of primary mathematics teachers." Master's thesis, University of Cape Town, 2009. http://hdl.handle.net/11427/8273.

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Includes abstract.
Includes bibliographical references (leaves 150-158).
This study describes the pedagogical scaffolding practices of nine primary school teachers in 18 lessons in the foundation phase. These teachers were participants in an in-service training and research project called the Count One Count All project in South Africa. On the basis of a critical review of relevant literature, the study proposes a definition of complex scaffolding pedagogy that differentiates between discrete scaffolding strategies and this complex scaffolding pedagogy. Complex scaffolding connects three sets of scaffolding strategies: those that orient pedagogy to a concept, those that 'open up' the concept through interactions between teacher and learners and those that structure learner activities to enable learners to internalise concepts.
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Gottardis, L. "Deaf primary school children's achievement in mathematics." Thesis, University of Oxford, 2014. http://ora.ox.ac.uk/objects/uuid:13f90aa3-c27e-46e2-a6b6-3db04de3712f.

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The present research aims to evaluate the extent of deaf children’s delay in mathematics, identifying the moderators of this delay and determine the longitudinal predictors of their mathematical achievement. For five decades, studies have reported that deaf children lag behind their hearing peers in mathematics (Gottardis, Nunes and Lunt, 2011). Background factors such as age, degree of hearing loss, presence of cochlear implant and types of educational provision were previously hypothesised to be moderators of the extent of this delay but, up to now, they have not been tested. Pagliaro (2010) argued that number knowledge, working memory and degree of hearing loss could be possible causes of deaf children’s difficulties in mathematics but no clear conclusions were reached. The present investigation aims to provide insight into the causes of deaf children’s delay in mathematics. The survey study addressed the first aim of the present study. The maths test of the Performance Indicators for Primary School (PIPS) was used as outcome measure. Factors related to deaf children (degree of hearing loss, age, years in education, presence of cochlear implant, gender, causes of deafness) and background factors (highest maternal education, language used at home, type of educational provision) were assessed as possible predictors and moderators of the extent of deaf children’s delay in mathematics. The overall extent of deaf children’s delay in mathematics was of -1.76 SDs. The older the children get and the more years they spend in special schools for the deaf or in units for hearing impaired, the wider is their gap in mathematics achievement compared with their hearing peers. It is, therefore, necessary to intervene in their mathematical learning in the early years of schooling in order to create pathways for improvement. The second aim of the present study was addressed through a longitudinal design. Logical-mathematical reasoning, working memory and counting ability were chosen as predictors of deaf children’s mathematical attainment on the basis of theoretical framework, evidence from longitudinal studies and from the analysis of the difficulties that deaf children have in these factors compared with hearing peers. Hierarchical regression analyses were used to assess the independence of the contributions of logical-mathematical reasoning, working memory and counting ability to the prediction of deaf children’s mathematical achievement measured through the PIPS. Age, years in education, type of educational provision and non-verbal intelligence were used as controls. Counting ability and working memory did make independent contributions to the prediction of deaf children’s mathematical success but logical mathematical reasoning was by far the strongest predictor. When the predictors were entered in the model, none of the control variables predicted significantly deaf children’s mathematical achievement. This study makes several empirical contributions. First, it established age, years in education and types of educational provision as moderators of the extent of deaf children’s delay in mathematics. Second, it determined the plausibility of a causal link between logical-mathematical reasoning, counting ability, working memory and deaf children’s mathematical achievement. The implication is that schools must explicitly plan to improve deaf children’s mathematical reasoning, counting ability and working memory when they are in kindergarten and in the first years of school in order to help the children’s mathematical development.
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Tesler, Glenn Paul. "Semi-primary lattices and tableau algorithms." Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/36628.

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Books on the topic "Primary mathematics in indonesia"

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Association, Mathematical. Primary mathematics. Leicester: Matematical Association, 1997.

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Open University. Centre for Mathematics Education., ed. Primary mathematics. London: Paul Chapman, 2000.

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Ron, James. Primary mathematics guidelines. Warwick: Warwickshire CountyCouncil, Education Department, 1990.

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Joy, Davis, Open University. Supporting Primary Mathematics Team., and Open University. Centre for Mathematics Education., eds. Supporting primary mathematics. Milton Keynes: Centre for Mathematics Education, Open University, 1990.

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Williams, Elizabeth. Primary mathematics today. 3rd ed. London: Longman, 1985.

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Candelent, Joy. Primary mathematics guidelines. Warwick: Warwickshire County Council,Education Department, 1990.

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Candelent, Joy. Primary mathematics guidelines. Warwick: Warwickshire CountyCouncil, Education Department, 1990.

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Okello, L. O. Cameroon Primary Mathematics (Cameroon Primary Mathematics). Macmillan Publishers Cameroon Ltd., 2002.

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Team, Primary Mathematics Project, ed. Primary mathematics. 3rd ed. Singapore: Curriculum Planning & Development Division, Ministry of Education, 1997.

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ill, Yong Paul, and Primary Mathematics Project Team, eds. Primary mathematics. 3rd ed. Singapore: Curriculum Planning & Development Division, Ministry of Education, 1999.

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Book chapters on the topic "Primary mathematics in indonesia"

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Jeulin, Dominique. "Primary Grains and Primary Functions." In Interdisciplinary Applied Mathematics, 509–30. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75452-5_14.

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Swanson, Irena, and Eduardo Sáenz-de-Cabezón. "Primary Decompositions." In Lecture Notes in Mathematics, 41–75. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-51319-5_2.

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Blyth, T. S., and E. F. Robertson. "Primary Decomposition." In Springer Undergraduate Mathematics Series, 37–46. London: Springer London, 2002. http://dx.doi.org/10.1007/978-1-4471-0661-6_4.

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Bruns, Winfried, and Udo Vetter. "Primary decomposition." In Lecture Notes in Mathematics, 122–34. Berlin, Heidelberg: Springer Berlin Heidelberg, 1988. http://dx.doi.org/10.1007/bfb0080388.

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Ranicki, Andrew. "Primary K-theory." In Springer Monographs in Mathematics, 105–18. Berlin, Heidelberg: Springer Berlin Heidelberg, 1998. http://dx.doi.org/10.1007/978-3-662-12011-8_12.

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Ranicki, Andrew. "Primary L-theory." In Springer Monographs in Mathematics, 467–84. Berlin, Heidelberg: Springer Berlin Heidelberg, 1998. http://dx.doi.org/10.1007/978-3-662-12011-8_35.

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Miharti, Suwatin, Ronald L. Holzhacker, and Rafael Wittek. "Decentralization and Primary Health Care Innovations in Indonesia." In Decentralization and Governance in Indonesia, 53–78. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-22434-3_3.

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Harper, John. "Review of primary operations." In Graduate Studies in Mathematics, 1–40. Providence, Rhode Island: American Mathematical Society, 2002. http://dx.doi.org/10.1090/gsm/049/01.

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Heyward, Mark. "Overview of Primary Education (Indonesia)." In Bloomsbury Education and Childhood Studies. Bloomsbury Publishing Plc, 2019. http://dx.doi.org/10.5040/9781474209472.0012.

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Heyward, Mark. "Assessment in Primary Education (Indonesia)." In Bloomsbury Education and Childhood Studies. Bloomsbury Publishing Plc, 2019. http://dx.doi.org/10.5040/9781474209472.0019.

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Conference papers on the topic "Primary mathematics in indonesia"

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Mailani, E., I. Manurung, A. Simanihuruk, and Rahmulyani Rahmulyani. "Development of Mathematics Learning Books for Primary Teacher Education Students." In Proceedings of the 2nd Annual Conference of Engineering and Implementation on Vocational Education (ACEIVE 2018), 3rd November 2018, North Sumatra, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.3-11-2018.2285612.

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Anasa, R. A., W. Nurlaila, W. Dharmastuti, I. Santoso, A. E. Maryanto, S. Sitaresmi, and Y. Yasman. "Isolation and screening of amylase activity of primary moulds in Ragi Tapai of Indonesia." In PROCEEDINGS OF THE 4TH INTERNATIONAL SYMPOSIUM ON CURRENT PROGRESS IN MATHEMATICS AND SCIENCES (ISCPMS2018). AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5132507.

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Haddar, Gamar, Desi Safitri, and Arbain Arbain. "Realistic Mathematic Education (RME) Model in Primary School." In Proceedings of the 1st International Conference on Business, Law And Pedagogy, ICBLP 2019, 13-15 February 2019, Sidoarjo, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.16-10-2019.163219.

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Zubainur, Cut Morina, Arsaythamby Veloo, and Rozalina Khalid. "The effect of using Indonesian realistic mathematics education (PMRI) approach on the mathematics achievement amongst primary school students." In INTERNATIONAL CONFERENCE ON MATHEMATICS, ENGINEERING AND INDUSTRIAL APPLICATIONS 2014 (ICoMEIA 2014). AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4915710.

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Awwalunita, Naafi, and Fasiha Fatmawati. "What has Happened in Mathematics Classroom: A Case Study in Primary Schools with High International Benchmark on TIMSS in Indonesia." In Proceedings of the 6th International Conference on Educational Research and Innovation (ICERI 2018). Paris, France: Atlantis Press, 2019. http://dx.doi.org/10.2991/iceri-18.2019.29.

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Latri, Latri, Johara Nonci, and Agusalim Juhari. "The Development of Elementary School Mathematics Learning Packages assisted by Manipulative Media: Supporting Qualified and Creative Primary Teacher Candidate Programs." In Proceedings of the 1st International Conference of Science and Technology in Elementary Education, ICSTEE 2019, 14 September, Makassar, South Sulawesi, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.14-9-2019.2290052.

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Zubainur, Cut Morina, Arsaythamby Veloo, and Rozalina Khalid. "The role of students’ activities in Indonesian realistic mathematics education in primary schools of Aceh." In INTERNATIONAL CONFERENCE ON MATHEMATICS, ENGINEERING AND INDUSTRIAL APPLICATIONS 2014 (ICoMEIA 2014). AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4915705.

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Nur‘aeni, Epon, Fitri Rohmayati, Muhammad Wahid Muharram, Oyon Pranata, Hodidjah Hodidjah, and Ika Apriani. "The Didactical Design of Properties of Triangles based on Pecle Traditional Games in Primary School." In Proceedings of the 7th Mathematics, Science, and Computer Science Education International Seminar, MSCEIS 2019, 12 October 2019, Bandung, West Java, Indonesia. EAI, 2020. http://dx.doi.org/10.4108/eai.12-10-2019.2296329.

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Zainal, Zaid. "Analysis Of Students’ Basic Mathematical Ability In Primary Schoolteacher Education Study Program State University Of Makassar." In Proceedings of the 1st International Conference of Science and Technology in Elementary Education, ICSTEE 2019, 14 September, Makassar, South Sulawesi, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.14-9-2019.2290037.

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Kusumawaty, Diah, Tina Yulianti, and Hernawati Hernawati. "The Use of Degenerate Primer to Isolation and Designing Housekeeping Gene of Eel Fish (Anguilla bicolor)." In Proceedings of the 7th Mathematics, Science, and Computer Science Education International Seminar, MSCEIS 2019, 12 October 2019, Bandung, West Java, Indonesia. EAI, 2020. http://dx.doi.org/10.4108/eai.12-10-2019.2296368.

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Reports on the topic "Primary mathematics in indonesia"

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Barnett, Janet, Guram Bezhanishvili, Hing Leung, Jerry Lodder, David Pengelley, Inna Pivkina, Desh Ranjan, and Maria Zack. Primary Historical Sources in the Classroom: Discrete Mathematics and Computer Science. Washington, DC: The MAA Mathematical Sciences Digital Library, June 2013. http://dx.doi.org/10.4169/loci003984.

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Hanna, Ingrid. A Spectrographic Analysis of Bahasa Indonesia Vowel Phonemes Under Primary Stress in CVC Words. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.2136.

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Ashiono, Benard, Teresa Mwoma, and Catherine Murungi. Does the use of ICT empower teachers to teach mathematics better? A case of lower primary teachers in Mombasa. Matters of Behaviour, May 2018. http://dx.doi.org/10.26455/mob.v2i1.7.

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S.M., Stas. Above-ground biomass and carbon stocks in a secondary forest in comparison with adjacent primary forest on limestone in Seram, the Moluccas, Indonesia. Center for International Forestry Research (CIFOR), 2014. http://dx.doi.org/10.17528/cifor/005258.

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Frantseva, Anastasiya. The video lectures course "Elements of Mathematical Logic" for students enrolled in the Pedagogical education direction, profile Primary education. Frantseva Anastasiya Sergeevna, April 2021. http://dx.doi.org/10.12731/frantseva.0411.14042021.

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The video lectures course is intended for full-time and part-time students enrolled in "Pedagogical education" direction, profile "Primary education" or "Primary education - Additional education". The course consists of four lectures on the section "Elements of Mathematical Logic" of the discipline "Theoretical Foundations of the Elementary Course in Mathematics" on the profile "Primary Education". The main lecture materials source is a textbook on mathematics for students of higher pedagogical educational institutions Stoilova L.P. (M.: Academy, 2014.464 p.). The content of the considered mathematics section is adapted to the professional needs of future primary school teachers. It is accompanied by examples of practice exercises from elementary school mathematics textbooks. The course assumes students productive learning activities, which they should carry out during the viewing. The logic’s studying contributes to the formation of the specified profile students of such professional skills as "the ability to carry out pedagogical activities for the implementation of primary general education programs", "the ability to develop methodological support for programs of primary general education." In addition, this section contributes to the formation of such universal and general professional skills as "the ability to perform searching, critical analysis and synthesis of information, to apply a systematic approach to solving the assigned tasks", "the ability to participate in the development of basic and additional educational programs, to design their individual components". The video lectures course was recorded at Irkutsk State University.
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Álvarez Marinelli, Horacio, Samuel Berlinski, and Matías Busso. Research Insights: Can Struggling Primary School Readers Improve Their Reading through Targeted Remedial Interventions? Inter-American Development Bank, November 2020. http://dx.doi.org/10.18235/0002863.

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This paper assesses the effectiveness of an intervention aimed at improving the reading skills of struggling third-grade students in Colombia. In a series of randomized experiments, students participated in remedial tutorials conducted in small groups during school hours. Trained instructors used structured pedagogical materials that can be easily scaled up. Informed by the outcomes of each cohort, the intervention tools are fine-tuned for each subsequent cohort. The paper finds positive and persistent impacts on literacy scores and positive spillovers on some mathematics scores. The effectiveness of the program grew over time, likely because of higher dosage and the fine-tuning of materials.
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Sowa, Patience, Rachel Jordan, Wendi Ralaingita, and Benjamin Piper. Higher Grounds: Practical Guidelines for Forging Learning Pathways in Upper Primary Education. RTI Press, May 2021. http://dx.doi.org/10.3768/rtipress.2021.op.0069.2105.

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To address chronically low primary school completion rates and the disconnect between learners’ skills at the end of primary school and the skills learners need to thrive in secondary school identified in many low- and middle-income countries, more investment is needed to improve the quality of teaching and learning in upper primary grades. Accordingly, we provide guidelines for improving five components of upper primary education: (1) In-service teacher professional development and pre-service preparation to improve and enhance teacher quality; (2) a focus on mathematics, literacy, and core content-area subjects; (3) assessment for learning; (4) high-quality teaching and learning materials; and (5) positive school climates. We provide foundational guiding principles and recommendations for intervention design and implementation for each component. Additionally, we discuss and propose how to structure and design pre-service teacher preparation and in-service teacher training and ongoing support, fortified by materials design and assessment, to help teachers determine where learners are in developmental progressions, move learners towards mastery, and differentiate and support learners who have fallen behind. We provide additional suggestions for integrating a whole-school climate curriculum, social-emotional learning, and school-related gender-based violence prevention strategies to address the internal and societal changes learners often face as they enter upper primary.
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Tiruneh, Dawit T., John Hoddinott, Caine Rolleston, Ricardo Sabates, and Tassew Woldehanna. Understanding Achievement in Numeracy Among Primary School Children in Ethiopia: Evidence from RISE Ethiopia Study. Research on Improving Systems of Education (RISE), May 2021. http://dx.doi.org/10.35489/bsg-rise-wp_2021/071.

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Ethiopia has succeeded in rapidly expanding access to primary education over the past two decades. However, learning outcomes remain low among primary school children and particularly among girls and children from disadvantaged backgrounds. Starting with a systematic review of quantitative studies on the determinants of learning outcomes among primary school children in Ethiopia, this study then examined key determinants of students’ numeracy achievement over the 2018-19 school year. The study focused on Grade 4 children (N=3,353) who are part of an on-going longitudinal study. The two questions that guided this study are: what are the key determinants of numeracy achievement at Grade 4 in primary schools in Ethiopia, and how does our current empirical study contribute to understanding achievement differences in numeracy among primary school children in Ethiopia? We employed descriptive and inferential statistics to examine factors that determine differences in numeracy scores at the start and end of the school year, as well as determinants of numeracy scores at the end of the school year conditional on achievement at the start of the school year. We examined differences across gender, region, and rural-urban localities. We also used ordinary least squares and school ‘fixed effects’ approaches to estimate the key child, household and school characteristics that determine numeracy scores in Grade 4. The findings revealed that boys significantly outperformed girls in numeracy both at the start and end of the 2018/19 school year, but the progress in numeracy scores over the school year by boys was similar to that of girls. Besides, students in urban localities made a slightly higher progress in numeracy over the school year compared to their rural counterparts. Students from some regions (e.g., Oromia) demonstrated higher progress in numeracy over the school year relative to students in other regions (e.g., Addis Ababa). Key child (e.g., age, health, hours spent per day studying at home) and school- and teacher-related characteristics (e.g., provision of one textbook per subject for each student, urban-rural school location, and teachers’ mathematics content knowledge) were found to be significantly associated with student progress in numeracy test scores over the school year. These findings are discussed based on the reviewed evidence from the quantitative studies in Ethiopia.
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Atuhurra, Julius, and Michelle Kaffenberger. System (In)Coherence: Quantifying the Alignment of Primary Education Curriculum Standards, Examinations, and Instruction in Two East African Countries. Research on Improving Systems of Education (RISE), December 2020. http://dx.doi.org/10.35489/bsg-rise-wp_2020/057.

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Improvements in instructional coherence have been shown to have large impacts on student learning, yet analysis of such coherence, especially in developing countries and at a systems level, is rare. We use an established methodology, the Surveys of Enacted Curriculum (SEC), and apply it to a developing country context to systematically analyze and quantify the content and coherence of the primary curriculum standards, national examinations, and actual teaching delivered in the classroom in Uganda and Tanzania. We find high levels of incoherence across all three instructional components. In Uganda, for example, only four of the fourteen topics in the English curriculum standards appear on the primary leaving exam, and two of the highest-priority topics in the standards are completely omitted from the exams. In Tanzania, only three of fourteen English topics are covered on the exam, and all are assessed at the “memorization” level. Rather than aligning with either the curriculum standards or exams, teachers’ classroom instruction is poorly aligned with both. Teachers tend to cover broad swathes of content and levels of cognitive demand, unrelated to the structure of either the curriculum standards or exams. An exception is Uganda mathematics, for which standards, exams, and teacher instruction are all well aligned. By shedding light on alignment deficits in the two countries, these results draw attention to a policy area that has previously attracted little (if any) attention in many developing countries’ education policy reform efforts. In addition to providing empirical results for Uganda and Tanzania, this study provides a proof-of-concept for the use of the SEC methodology as a diagnostic tool in developing countries, helping education systems identify areas of instructional (in)coherence and informing efforts to improve coherence for learning.
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Yusgiantoro, Filda C., I. Dewa Made Raditya Margenta, Haryanto Haryanto, and Felicia Grace Utomo. Carbon Tax Implementation in the Energy Sector: A Comparative Study in G20 and ASEAN Member States (AMS). Purnomo Yusgiantoro Center, June 2021. http://dx.doi.org/10.33116/br.003.

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1. This report shows that six G20 countries (Japan, South Africa, Argentina, France, Ireland, and Mexico) and one ASEAN Member States (Singapore) have implemented a carbon tax. 2. The energy sector is the primary GHG emissions contributor in most member states, except Indonesia. However, the energy sector in Indonesia will highly contribute to the national GHG emissions considering the rise of energy demand due to economic and population growth. 3. The effectiveness of carbon tax is specific to which sectors are taxed and which sectors are exempt to a country member. Specifically, a higher emissions price may not cover a large share of emissions in the country. The high carbon tax in France only covers 35% of total emissions in its jurisdiction. Meanwhile, Japan and Singapore’s low carbon tax covers 75% and 80% of total emissions in their jurisdiction, respectively. 4. The numbers of sectoral coverage by emissions price will impact the level of revenues generated from the carbon tax. France obtained the most significant carbon tax revenue for more than USD 9.6 billion. Meanwhile, Argentina generated less than USD 1 million, likely due to tax exemptions in natural gas commodities. 5. The contribution level of carbon tax revenue to the government’s total revenue varies for each country. France and Ireland’s carbon tax revenue contributes 0.71% and 0.53% of their total government revenue, respectively. Meanwhile, the rest of the countries’ carbon tax revenue contributed less than 0.3% each to their government revenue.
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