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VijayReddywithcontributionsfromAnilKanjee,GerdaDiedericksandLolitaWinnaar
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Compiled by the Education, Science and Skills Development Research Programme
of the Human Sciences Research Council
Published by HSRC Press
Private Bag X9182, Cape Town, 8000, South Africa
www.hsrcpress.ac.za
© 2006 Human Sciences Research Council
First published 2006
All rights reserved. No part of this book may be reprinted or reproduced or utilised in
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CONTENTS
List of tables and figures vi
Acknowledgements ix
Executive summary x
Acronyms and abbreviations xix
1. AchievementstudiesandTimss1
International achievement studies in mathematics and science 1
Benefits and limitations of achievement studies 3
Achievement studies in South Africa 4
The Trends in International Mathematics and Science Study 4
Countries participating in the TIMSS 2003 Grade 8 study 5
Summary 6
2. Timssdesignandmethodology7
TIMSS conceptual framework 7
Instruments 7
Sampling 11
Field testing of TIMSS achievement items 13
Main administration of TIMSS 14
Scoring of constructed responses 14
Data capture and cleaning 15
Data processing 15
Reporting TIMSS achievement scores 16
3. SouthAfricanmathematicsachievement
inaninternationalcontext17
Mathematics achievement of participating countries in TIMSS 2003 17
South Africa in relation to other African countries 20
Changes in mathematics achievement between TIMSS 1999 and TIMSS 2003 20
Gender analysis 21
Performance at international benchmarks 24
Examples of performance at different benchmarks 27
Summary 30
4. SouthAfricanscienceachievement
inaninternationalcontext31
Science achievement of participating countries in TIMSS 2003 31
South Africa in relation to other African countries 34
Changes in science achievement between TIMSS 1999 and TIMSS 2003 34
Gender analysis 35
Performance at international benchmarks 38
Examples of performance at different benchmarks 41
Summary 45
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MathematicsandScienceAchievementinSouthAfrica,Timss2003
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5. Nationalanalysis:Timss2003mathematics46
National mathematics participation and performance in TIMSS 1999 and 2003 46
Performance by province 46
Performance by ex-racial department of school 49
Performance by gender 52
Performance by language of the test 54
Performance by content area, cognitive domain and question type 55
Summary 58
6. Nationalanalysis:Timss2003science59
National science participation and performance in TIMSS 1999 and 2003 59
Performance by province 59
Performance by ex-racial department of schools 62
Performance by gender 65
Performance by language of the test 67
Performance by content area, cognitive domain and question type 68
Summary 70
7. Grade9mathematicsandscienceachievement
inTimss200372
Mathematics and science achievement scores at the Grade 9 level 72
Performance by province 73
Performance at the different benchmarks 73
Participation and performance by gender 73
Performance by ex-racial department of schools 74
Performance by content area 74
Summary 75
8. Thesocial,educationalandcurriculum
landscape76
Introduction 76
Social landscape 76
Educational landscape 77
Curriculum landscape 78
TIMSS curriculum analysis 79
Description of the South African science and mathematics curriculum 80
Summary 84
9. SouthAfricanTimsslearnerprofiles85
Introduction 85
Learner demographic characteristics 85
Home background 87
Attitudes towards learning mathematics and science 91
Summary 95
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10. Thecontextoflearning:
teachers,classroomsandschools96
Introduction 96
The contextual framework 96
Science and mathematics teachers 96
Mathematics teachers and their preparation for teaching 97
Science teachers and their preparation for teaching 99
Classroom characteristics, activities and resources 102
Learner activities in mathematics and science classroooms 103
School contexts 106
Summary 110
11. Keyfindingsandimplications112
Introduction 112
Key findings 112
Implications 117
Appendices121
1. GIS plot of schools participating in TIMSS 2003 121
2. Profile of schools sampled in Grade 8 TIMSS, by ex-racial department 122
3. Profile of learners taking the TIMSS tests in Afrikaans 123
4. 2002 South African public school statistics 124
5. Socio-economic indicators, by province 125
6. Schools in the TIMSS 2003 Grade 9 sample 126
References127
Contents
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Figures
Figure 3.1: Distribution of mathematics achievement 19
Figure 3.2: Change in mathematics performance from TIMSS 1999 to TIMSS 2003,
by country 21
Figure 3.3: Average mathematics achievement by gender 23
Figure 3.4: Percentage of learners reaching the different benchmarks for mathematics in
TIMSS 2003, by country 26
Figure 4.1: Distribution of science achievement 33
Figure 4.2: Change in science performance from TIMSS 1999 to TIMSS 2003,
by country 35
Figure 4.3: Average science achievement by gender 37
Figure 4.4: Percentage of learners reaching the different benchmarks for science in
TIMSS 2003, by country 40
Figure 5.1: Provincial mathematics scale scores and HDI, by province 48
Figure 5.2: Provincial profile of mathematics performance at different benchmarks 49
Figure 5.3: Average mathematics scale scores of learners from the different 50
school types 51
Figure 5.4: Distribution of mathematics achievement 51
Figure 5.5: Mathematics performance of girls and boys by province 53
Figure 5.6: Percentage of learners who correctly answered items in each cognitive
domain 56
Figure 5.7: Percentage of learners who answered the MCQ items correctly 57
Figure 6.1: Provincial science scale scores and HDI, by province 61
Figure 6.2: Provincial profile of science performance at different benchmarks 62
Figure 6.3: Average science scale scores of learners from the different school types 63
Figure 6.4: Distribution of science achievement 64
Figure 6.5: Science performance of girls and boys by province 66
Figure 6.6: Percentage of learners who correctly answered items in each cognitive
domain 69
Figure 6.7: Percentage of learners who answered the MCQ items correctly 70
Tables
Table 2.1: Mathematics content and cognitive domains and the proportion of assessment
for each domain 8
Table 2.2: Science content and cognitive domains and the proportion of assessment for
each domain 9
Table 2.3: TIMSS Grade 8 schools sampled, schools in which instruments were
administered, and number of learners 12
Table 3.1: Scale scores and key indicators of African country participants in
TIMSS 2003 20
FIGURESANDTABLES
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Table 3.2: Countries where the difference in Grade 8 participation rates between girls
and boys was 6 per cent or more 21
Table 3.3: Countries where there was a significant difference between the average
mathematics scaled scores of girls and boys 22
Table 3.4: Descriptions of TIMSS 2003 international benchmarks for mathematics 24
Table 4.1: Scale scores and key indicators of African country participants in
TIMSS 2003 34
Table 4.2: Countries where the difference in Grade 8 participation rates between girls
and boys was 6 per cent or more 35
Table 4.3: Countries where there was a difference between the average science scaled
scores of girls and boys 36
Table 4.4: Descriptions of TIMSS 2003 international benchmarks for science 38
Table 5.1: Average mathematics scale score by province 47
Table 5.2: Provinces where scores increased or decreased between TIMSS 1999 and
TIMSS 2003 48
Table 5.3: Change in mathematics performance, from TIMSS 1999 to TIMSS 2003, by
ex-racial department 52
Table 5.4: Mathematics performance, in schools categorised by ex-racial department for
TIMSS 1999 and TIMSS 2003, by gender 54
Table 5.5: Average mathematics score by language of instruction 55
Table 5.6: Relative mathematics scale scores (and SE) in the content domains 56
Table 6.1: Average science scale scores by province 60
Table 6.2: Provinces where scores increased or decreased between TIMSS 1999 and
TIMSS 2003 61
Table 6.3: Change in science performance, from TIMSS 1999 to TIMSS 2003, by ex-
racial department 65
Table 6.4: Science performance, in schools categorised by ex-racial department, for
TIMSS 1999 and TIMSS 2003, by gender 67
Table 6.5: Average science score by language of instruction 67
Table 6.6: Relative science scale scores (and SE) in the content domains 68
Table 7.1: Table of average scores in mathematics and science for Grades 8 and 9 72
Table 7.2: Provincial mathematics and science Grade 9 scale scores and point difference
to Grade 8 performance 73
Table 7.3: Performance of girls and boys in mathematics and science at Grade 9
level 74
Table 7.4: Average mathematics and science scale scores of learners from the different
school types 74
Table 7.5: Relative mathematics scale scores (and SE) in the content domains 74
Table 7.6: Relative science scale scores (and SE) in the content domains 75
Table 8.1: Summary of percentage of learners taught the TIMSS science topics and the
average scale scores for each content area 81
ListofTablesandFigures
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MathematicsandScienceAchievementinSouthAfrica,Timss2003
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Table 8.2: Summary of percentage of learners taught the TIMSS mathematics topics and
the average scale scores for each content area 83
Table 9.1: Participation rates by gender, and average age of TIMSS learners
by province 85
Table 9.2: Racial composition of learners in the TIMSS sample, by school type 86
Table 9.3: Highest educational level of either parent and average mathematics scale
scores 87
Table 9.4: Number of books in the home and average mathematics score 88
Table 9.5: Extent to which the language of the test is spoken at home and mathematics
and science average scores 89
Table 9.6: Index of learners’ self-confidence in mathematics (SCM) and self-confidence
in science (SCS) and average mathematics and science scores 91
Table 9.7: Learners’ response to the enjoyment of mathematics and science
question 92
Table 9.8: Index of learners valuing mathematics (SVM) and learners valuing science
(SVS) and average mathematics and science scores 94
Table 10.1: Highest educational level of mathematics teachers, by percentage of learners
they teach 97
Table 10.2: Percentage of learners taught by teachers’ who had participated in
professional mathematics development in the past two years 98
Table 10.3: Highest educational level of science teachers, by percentage of
learners they teach 100
Table 10.4: Percentage of learners taught by teachers’ who had participated in
professional science development in the past two years 101
Table 10.5: Mathematics and science class size, by percentage of learners in different
class sizes, and average mathematics scores 102
Table 10.6: Item formats used by mathematics and science teachers in classrooms as
reported by percentage of learners 105
Table 10.7: Principals’ reports on the percentage of learners in their schools coming
from economically disadvantaged homes, and their average mathematics
score 106
Table 10.8: Index of availability of school resources for mathematics and science by
percentage of learners 108
Table 10.9: Index of principals’ perception of school climate (PPSC) and teachers’
perception of school climate (TPSC), by percentage of learners 109
Table 10.10: Index of good school and class attendance, by percentage of
learners 110
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The Trends in International Mathematics and Science Study (TIMSS) 2003 was a massive
project which spanned four years. Many people were involved in ensuring its completion.
Sincere thanks to all those who contributed, including:
• The learners, teachers and principals from the South African schools who
participated in this project;
• The International Association for the Evaluation of Educational Achievement (IEA),
Boston College International Study Center, Statistics Canada, and the Data Processing
Center for their support for each part of the project;
• Dr Anil Kanjee, executive Director of the Research Programme at the Human Science
Research Council (HSRC), within which the TIMSS project was located, for his
involvement, support and collegial participation in the project;
• The many HSRC staff who were involved in different sections of the study –
Ms Elsie Venter for organising the pilot study and getting all instruments completed
so that the main study took place on time; Ms Mmasello Motsepe for the initial
administrative support; Ms Gerda Diedericks for the logistical arrangements and
managing the item-scoring process; Ms Lolita Winnaar for managing and organising
the vast quantities of data; and Ms Carla Pheiffer and Ms Sophie Strydom for
providing general support;
• The HSRC and, in particular, Dr Mark Orkin (then-CEO of the HSRC), who
recognised the importance of large-scale international assessment studies in
benchmarking South African performance and supported the project;
• The National Department of Education (DoE), for acknowledging the importance of
this study as a means of informing us about the state of mathematics and science in
the country, and for providing relevant support to ensure that the study took place;
• Those who provided helpful comments on the draft reports (Prof. Linda Chisholm,
Dr Anil Kanjee, Dr Kathleen Heugh, Prof. Andile Mji, Ms Gerda Diedericks and
Ms Lolita Winnaar);
• The international dimension of the study was funded by the IEA (with funds from
the World Bank) and the in-country costs were funded by the Department of Science
and Technology (DST) parliamentary grant to the HSRC. Sincere thanks to these
organisations.
Dr Vijay Reddy
Research Director, HSRC and TIMSS 2003 National Research Co-ordinator
ACKNOWLEDGEMENTS
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In November 2002, about 9 000 Grade 8 learners from South African public schools
participated in the Trends in International Mathematics and Science Study (TIMSS). South
Africa was one of 50 countries (and educational systems) that participated in this study.
TIMSS is a project of the International Association for the Evaluation of International
Achievement (IEA), an organisation that has been conducting cross-national studies since
1959. The Human Sciences Research Council (HSRC) has co-ordinated and managed
the South African part of the study. TIMSS 2003 is the third TIMSS that South Africa has
participated in – the others being in 1995 and 1999.
This analytical-descriptive report provides information, gained during TIMSS 2003, about
South Africa’s performance in mathematics and science at Grade 8 level. The report will
first provide information regarding South Africa’s performance in relation to the other
countries that participated in the study, and cross-national comparisons will highlight
South Africa’s performance in relation to the other participating African countries. The
report will then provide information on performance in mathematics and science within
South Africa. The national analysis will also track changes over time. This national
analysis is important to inform policy and planning within the country. In addition to
achievement data, this report will include contextual information relating to learners,
teachers and schools.
Research design
TIMSS is a large-scale comparative study and is conducted internationally at the end of
the Grade 4 and Grade 8 year. South Africa participated in the Grade 8 study. TIMSS
primarily measures learner achievement in mathematics and science, as well as learner
beliefs and attitudes towards these subjects. The study also investigates curricular
intentions and school and classroom environments.
TIMSS uses the curriculum, broadly defined, as the organising principle in how
educational opportunities are provided to learners. The curriculum model has three
aspects: the intended curriculum, the implemented curriculum and the attained
curriculum.
TIMSS then developed items for the mathematics and science achievement tests. To
accommodate the large number of items required in the limited testing time available,
TIMSS used a matrix-sampling technique. This technique involved dividing the item
pool among a set of 12 learner booklets. TIMSS collected information from curriculum
specialists, learners in participating schools, their mathematics and science teachers, and
their school principals.
TIMSS is a population survey and the sample of learners is representative of the
population from which it is drawn – in South Africa these are the Grade 8 learners. For
South Africa, the School Register of Needs (SRN) database was used to select the sample
of schools. The sample was explicitly stratified by two dimensions:
• By province; and
• By the language of teaching and learning (English and Afrikaans were the languages
of instruction chosen by schools).
The TIMSS sampling design used a three-stage stratified cluster design, which involved:
• Selecting a sample of schools from all eligible schools;
• Randomly selecting a mathematics and science class from each sampled school; and
EXECUTIVESUMMARY
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. set at 500 and the standard
deviation at 100.
South Africa’sperformance in mathematics and science in TIMSS 2003
1. South African mathematics and science. www.hsrcpress.ac.za
Mathematics and Science Achievement in South Africa, Timss 2003
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5. Nationalanalysis: Timss 2003 mathematics 46
National mathematics participation and performance in TIMSS
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