Mathematics Education in Africa
portes grátis
Mathematics Education in Africa
The Fourth Industrial Revolution
Uworwabayeho, Alphonse; Luneta, Kakoma; Chirinda, Brantina
Springer International Publishing AG
11/2022
331
Dura
Inglês
9783031139260
15 a 20 dias
699
Descrição não disponível.
Chapter 1: Is Africa ready for the 4IR? Fidele Ukobizaba, Ezekiel Nsabayezu and Alphonse Uworwabayeho.- Chapter 2: Can the Fourth Industrial Revolution (4IR) resolve why the teaching of mathematics in the current paradigm continues to be decontextualised and ineffective; Kakoma Luneta.- Chapter 3: Alignment and Gaps of the Competency-Based Mathematics Curriculum and the Fourth Industrial Revolution; Penina Kamina and Mary A. Ochieng.- Chapter 4: Mathematics educators' readiness for online education in the Fourth Industrial Revolution - A case of two selected Universities in Ethiopia; Tola Bekene Bedada; France Machaba; and Mekdes Minjar Manea.- Chapter 5: Mathematics Education and the Fourth Industrial Revolution (4IR): Are the High School Mathematics Teachers Ready in Nigeria?; Musa Adekunle Ayanwale, Mdutshekelwa Ndlovu & Jumoke Iyabode Oladele.- Chapter 6: Revamping the Zimbabwean mathematics curriculum to align it with the demands of fourth industrial revolution; Gladys Suzuma, Conilius Changwiza, and Brantina Chirinda.- Chapter 7: Redefining Distance Learning for the African Context: Lessons Learnt from Egyptian Educators; Mariam Makramalla.- Chapter 8: Implementing Assessment as Learning with Computer Adaptive Learning for Enhancing STEM Education in Africa: A Fourth Industrial Revolution Possibility; Jumoke I. Oladele, Mdutshekelwa Ndlovu and Musa A. Ayanwale.- Chapter 9: Teaching and Learning Mathematics Using Technology in Basic Education Schools in Rwanda; Emmanuel Iyamuremye, Joseph Njiku, Jean Francois Maniraho, Irenee Ndayambaje, and Charles Magoba Muwonge.- Chapter 10: Exploring the challenges concerning the teaching and learning mathematics during the fourth industrial revolution in the selected Rwandan secondary schools; Aloys Iyamuremye, Jean de Dieu Kwitonda, Ezechiel Nsabayezu and Jean Claude Habimana.- Chapter 11: An experimental approach for learning mathematical functions in secondary school using GeoGebra software in Niger republic;Abdoul Massalabi NOUHOU and Abdou Moumouni.- Chapter 12: Instances of instrumental orchestration when a teacher integrates GeoGebra in solving linear inequalities in the context of linear and quadratic functions; Charles Smith.- Chapter 13: Fault lines in designing learning activities for practising mathematics teachers: An autoethnographic account; Cyril Julie.- Chapter 14: Factors Influencing Preservice Teachers' Adoption of Interactive Social Media Platforms in Mathematics Teacher Education in Malawi; Fraser Gobede, Mercy Kazima and Justina Longwe.- Chapter 15: The Use of Animal Metaphors to Reveal Self-perceptions of Grade Three Namibian Learners Who Experienced Mathematics Learning Difficulties During the COVID-19 Pandemic Cloneria Nyambali Jatilen and Shemunyenge Taleiko Hamukwaya.- Chapter 16: Using 4IR to enhance learners' self-regulated skills to solve circle geometry problems; Puleng Motseki.- Chapter 17: Emerging realities from COVID-19 and the 4IR: mathematics education lecturers' autoethnographic experiences; Hlamulo Mbhiza, Zingiswa Jojo, Masilo Motshidisi and France Machaba.- Chapter 18: WhatsApp as a social media to enhance dialogic interactions in mathematics: Grade 9 teachers and learners' voices; Tshegofatso Makgakga.
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Digitisation in Mathematics Education;Mathematics Education in Africa;Mathematics Education;Teaching and Learning of Mathematics;Technologies of Teaching Mathematics;ICT in Mathematics Education
Chapter 1: Is Africa ready for the 4IR? Fidele Ukobizaba, Ezekiel Nsabayezu and Alphonse Uworwabayeho.- Chapter 2: Can the Fourth Industrial Revolution (4IR) resolve why the teaching of mathematics in the current paradigm continues to be decontextualised and ineffective; Kakoma Luneta.- Chapter 3: Alignment and Gaps of the Competency-Based Mathematics Curriculum and the Fourth Industrial Revolution; Penina Kamina and Mary A. Ochieng.- Chapter 4: Mathematics educators' readiness for online education in the Fourth Industrial Revolution - A case of two selected Universities in Ethiopia; Tola Bekene Bedada; France Machaba; and Mekdes Minjar Manea.- Chapter 5: Mathematics Education and the Fourth Industrial Revolution (4IR): Are the High School Mathematics Teachers Ready in Nigeria?; Musa Adekunle Ayanwale, Mdutshekelwa Ndlovu & Jumoke Iyabode Oladele.- Chapter 6: Revamping the Zimbabwean mathematics curriculum to align it with the demands of fourth industrial revolution; Gladys Suzuma, Conilius Changwiza, and Brantina Chirinda.- Chapter 7: Redefining Distance Learning for the African Context: Lessons Learnt from Egyptian Educators; Mariam Makramalla.- Chapter 8: Implementing Assessment as Learning with Computer Adaptive Learning for Enhancing STEM Education in Africa: A Fourth Industrial Revolution Possibility; Jumoke I. Oladele, Mdutshekelwa Ndlovu and Musa A. Ayanwale.- Chapter 9: Teaching and Learning Mathematics Using Technology in Basic Education Schools in Rwanda; Emmanuel Iyamuremye, Joseph Njiku, Jean Francois Maniraho, Irenee Ndayambaje, and Charles Magoba Muwonge.- Chapter 10: Exploring the challenges concerning the teaching and learning mathematics during the fourth industrial revolution in the selected Rwandan secondary schools; Aloys Iyamuremye, Jean de Dieu Kwitonda, Ezechiel Nsabayezu and Jean Claude Habimana.- Chapter 11: An experimental approach for learning mathematical functions in secondary school using GeoGebra software in Niger republic;Abdoul Massalabi NOUHOU and Abdou Moumouni.- Chapter 12: Instances of instrumental orchestration when a teacher integrates GeoGebra in solving linear inequalities in the context of linear and quadratic functions; Charles Smith.- Chapter 13: Fault lines in designing learning activities for practising mathematics teachers: An autoethnographic account; Cyril Julie.- Chapter 14: Factors Influencing Preservice Teachers' Adoption of Interactive Social Media Platforms in Mathematics Teacher Education in Malawi; Fraser Gobede, Mercy Kazima and Justina Longwe.- Chapter 15: The Use of Animal Metaphors to Reveal Self-perceptions of Grade Three Namibian Learners Who Experienced Mathematics Learning Difficulties During the COVID-19 Pandemic Cloneria Nyambali Jatilen and Shemunyenge Taleiko Hamukwaya.- Chapter 16: Using 4IR to enhance learners' self-regulated skills to solve circle geometry problems; Puleng Motseki.- Chapter 17: Emerging realities from COVID-19 and the 4IR: mathematics education lecturers' autoethnographic experiences; Hlamulo Mbhiza, Zingiswa Jojo, Masilo Motshidisi and France Machaba.- Chapter 18: WhatsApp as a social media to enhance dialogic interactions in mathematics: Grade 9 teachers and learners' voices; Tshegofatso Makgakga.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
