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Article
Publication date: 8 March 2024

Hisham Hanfy Ayob and Tarek Ibrahim Hamada

This study was done to compare the modes of teaching mathematics in higher education in the United Arab Emirates (UAE). The three teaching methods were used as follow: before…

Abstract

Purpose

This study was done to compare the modes of teaching mathematics in higher education in the United Arab Emirates (UAE). The three teaching methods were used as follow: before, during and after the COVID-19 pandemic. The three teaching methods are: (1). Normal on-campus face-to-face teaching and learning activity before the COVID-19 pandemic. (2). Full online teaching and learning activity during the COVID-19 pandemic. (3). Blended teaching and learning activity after the COVID-19 pandemic.

Design/methodology/approach

Over the last few years, there has been a considerable amount of literature investigating the efficacy of the various delivery modes: on-campus delivery (face-to-face), online delivery and blended learning (hybrid), in helping college students improve their mathematical skills. However, the extent to which one learner learns best has been hotly debated among the researchers. Therefore, this study aims to compare the efficacy of implementing three teaching and learning delivery modes before, while, and after the COVID-19 pandemic: on-campus delivery (face-to-face), online delivery and blended learning (hybrid) on academic achievement in mathematics at a higher education institution in the UAE. The main research question explores whether there is a statistically significant difference (p = 0.05) in students’ academic based on the delivery methods: on-campus face-to-face, online and blended learning. The participants in the study were students from one of the largest higher education institutions in the UAE, and all of them studied the same mathematics course before, during and after the COVID-19 pandemic. Student scores in the three academic semesters were thoroughly compared and analyzed using the ANOVA test to check if there is a significant difference between the three groups followed by a Tukey test to identify the significant difference in favor of which group. The results showed that there were significant differences in the mean scores in the students’ achievement in the mathematics courses favoring the blended learning delivery mode. The findings also show that the students’ achievement in mathematics using the on-campus face-to-face teaching and learning was better than the students’ achievement in mathematics using online teaching and learning delivery modes.

Findings

The main study question was: is there a statistical significant difference at the significance level (a = 0.05) in students’ achievements in mathematics courses at higher education in the UAE, which can be attributed to the method of teaching? The descriptive statistics reveal that the average student’s score in the final exam after the COVID-19 pandemic is 65.7 with a standard deviation of 16.65, which are higher than the average student’s score in the final exam before the COVID-19 pandemic of 58.7 with a standard deviation 20.53, and both are higher than the average students’ score in the final exam during the COVID-19 pandemic 51.8 with standard deviation 21.48. Then, the ANOVA test reveals that there is a statistically significant difference between the three groups in the final exam marks. The researchers used the multiple comparison tests (Tukey test) to determine the difference. The Tukey test reveals that there is a statically significant difference between the average students’ score in the final exam after the COVID-19 pandemic and the average students’ score in the final exam during the COVID-19 pandemic, where p = 0.015 < 0.05 as well as there is a statically significant difference between the average students’ score in the final exam after the COVID-19 pandemic and the average students’ score in the final exam before the COVID-19 pandemic, where p = 0.000 < 0.05 in favor of the average students’ score in the final exam after the COVID-19 pandemic. On the other hand, there is a statically significant difference between the average students’ score in the final exam before the COVID-19 pandemic and the average students’ score in the final exam during the COVID-19 pandemic, where p = 0.016 < 0.05 in favor of the average students’ score in the final exam before the COVID-19 pandemic.

Research limitations/implications

There are several limitations that may reduce the possibility of generalizing the expected results of the current study to students outside the study population: (1) The study is limited to students of a federally funded postsecondary education institution in the UAE, in which most students are studying in their non-native language. (2) The study is limited to the mathematics courses. (3) The achievement test used in the study is a standardized test developed by the college as a cross-campus summative assessment.

Practical implications

The hybrid education model, also known as blended learning, combines traditional face-to-face instruction with online learning components. When applied to teaching mathematics in higher education, this approach can have several implications and benefits. Here are some key points supported by references: (1) Enhanced Accessibility and Flexibility: hybrid models offer flexibility in learning, allowing students to access course materials, lectures and resources online. This flexibility can accommodate diverse learning styles and preferences. A study by Means et al. (2013) in “Evaluation of Evidence-Based Practices in Online Learning” highlights how blended learning can improve accessibility and engagement for students in higher education. (2) Personalized Learning Experience: by incorporating online resources, instructors can create a more personalized learning experience. Adaptive learning platforms and online quizzes can provide tailored feedback and adaptive content based on individual student needs (Freeman et al., 2017). This individualization can improve student performance and understanding of mathematical concepts. (3) Increased Student Engagement: the integration of online components, such as interactive simulations, videos and discussion forums, can enhance student engagement and participation (Bonk and Graham, 2012). Engaged students tend to have better learning outcomes in mathematics. (4) Improved Assessment and Feedback Mechanisms: hybrid models allow for the implementation of various assessment tools, including online quizzes, instant feedback mechanisms and data analytics, which can aid instructors in monitoring students’ progress more effectively (Means et al., 2013). This timely feedback loop can help students identify areas needing improvement and reinforce their understanding of mathematical concepts. (5) Cost-Effectiveness and Resource Optimization: integrating online materials can potentially reduce overall instructional costs by optimizing resources and enabling efficient use of classroom time (Graham, 2013). (6) Challenges and Considerations: despite the benefits, challenges such as technological barriers, designing effective online materials and ensuring equitable access for all students need to be addressed (Garrison and Vaughan, 2014). It requires thoughtful course design and continuous support for both students and instructors. When implementing a hybrid education model in teaching mathematics, instructors should consider pedagogical strategies, technological infrastructure and ongoing support mechanisms for students and faculty.

Originality/value

The research is the first research in the UAE to discuss the difference in teaching mathematics in higher education before, during and after the COVID-19 pandemic.

Details

Journal of Applied Research in Higher Education, vol. ahead-of-print no. ahead-of-print
Type: Research Article
ISSN: 2050-7003

Keywords

Book part
Publication date: 30 December 2011

Yujing Ni, Qiong Li, Xiaoqing Li and Jun Zou

This chapter provides a synthesis of the research project which investigated whether or not the most recent mathematics curriculum reform has reached the classroom and influenced…

Abstract

This chapter provides a synthesis of the research project which investigated whether or not the most recent mathematics curriculum reform has reached the classroom and influenced classroom practice and student learning in the mainland China. Three types of evidence for change as a result of the curriculum reform were examined. These included the beliefs and perceptions of teachers about learning and teaching mathematics, the cognitive features of learning tasks and of classroom interaction that were implemented in classroom, and student learning outcomes. Two groups of elementary math teachers and their students participated in the study. One group had participated in the reform implementation in classroom for several years, and the other group had used the conventional curriculum when the project was conducted in 2005. About 150 videotaped class sessions were analyzed from 58 classrooms of the two groups. Survey methods were used to probe the changes in the beliefs and perceptions of teachers about teaching and learning mathematics. The student learning outcomes were assessed for three times with multiple measures of mathematics achievement. Findings of the project provide the converging evidence that the curriculum reform has resulted in some of the expected changes. Reform teachers were more likely to hold a dynamic view of mathematics and to indicate the importance to provide students the learning opportunity to hypothesize, to proof, and to communicate in learning mathematics. The reform classrooms used more learning tasks with higher cognitive demands. The teachers in the reform classrooms asked more questions that required students to describe procedures leading to their answers and the students in the reform classrooms raised more questions in learning mathematics. Students of the reform classrooms showed to have achieved a relatively more balanced development in different cognitive areas of mathematics achievement.

Details

The Impact and Transformation of Education Policy in China
Type: Book
ISBN: 978-1-78052-186-2

Keywords

Book part
Publication date: 8 February 2021

Wilfred W. F. Lau

Mathematics education in the twenty-first century faces new challenges that necessitate updates to mathematics curricula. This chapter analyses the updates made to Hong Kong’s…

Abstract

Mathematics education in the twenty-first century faces new challenges that necessitate updates to mathematics curricula. This chapter analyses the updates made to Hong Kong’s mathematics curriculum in 2017 by using the curricular spider web (van den Akker, 2003), which consists of 10 curriculum components, namely the rationale behind the curriculum, aims and objectives, content, learning activities, teacher role, materials and resources, grouping, location, time, and assessment. The findings of this analysis suggest that Hong Kong’s mathematics curriculum has been developed in line with the changing trends of international mathematics curricula, which are influenced by globalisation and internationalisation. Future research could compare the mathematics curriculum in Hong Kong with those in other parts of the world.

Details

Design Thinking and Innovation in Learning
Type: Book
ISBN: 978-1-80071-109-9

Keywords

Open Access
Article
Publication date: 29 August 2022

Jimmy Ezekiel Kihwele and Jamila Mkomwa

The study explored the impact of the King and Queen of Mathematics Initiative (KQMI) in promoting students’ interest in learning mathematics and improving their achievement. The…

11353

Abstract

Purpose

The study explored the impact of the King and Queen of Mathematics Initiative (KQMI) in promoting students’ interest in learning mathematics and improving their achievement. The specific objectives of the study focused on the impact of the initiative in promoting interest in mathematics, assessing the contribution of the initiative to students’ achievements and investigating challenges encountered by the initiative.

Design/methodology/approach

The study used a case study design with a mixed-method approach. One ward secondary school was involved. The sample size was N = 79, where 77 were grade three students in a science class and two teachers. Data collection involved documentary review, observation and interviews. Data analysis employed both content analysis and a dependent t-test to determine the effect size of the initiative.

Findings

The findings revealed that KQMI had a significant impact on improving performance in mathematics among students (t (71) = −7.917, p < 0.05). The study also showed that male students improved their performance more than their counterparts throughout the KQMI. The mathematics teacher revealed that students still need assistance to solve mathematical questions with different techniques to develop the expected competencies.

Research limitations/implications

The initiative was conducted only in one school, limiting the findings’ generalization. Also, the innovation faced different challenges, such as accessing adequate resources and students with little knowledge of mathematics, which the initiative aimed to address.

Practical implications

Pedagogical innovations enhance the promotion of students’ interest in learning mathematics and hence improve their performance. Also, through pedagogical innovations, teachers improve their teaching skills and practices from students’ feedback.

Originality/value

The KQMI is a new pedagogical innovation modified from the existing innovations such as game-based method, task design, mobile learning and mathematics island.

Details

Journal of Research in Innovative Teaching & Learning, vol. 16 no. 1
Type: Research Article
ISSN: 2397-7604

Keywords

Article
Publication date: 25 August 2022

Muhammad Mujtaba Asad, Sidra Khan, Fahad Sherwani and Jyoti Sekhar Banerjee

Internet technology in the classroom has become the primary demand of every student in this era. Moreover, information and communication technology aids students' learning

Abstract

Purpose

Internet technology in the classroom has become the primary demand of every student in this era. Moreover, information and communication technology aids students' learning involvement and progress by providing learning assistance by improved instructor, pupil and interactions with fellows. Using an asynchronous Web-based learning environment (WBLE) is one way to manage such assistance. This study aims to identify to what extent the asynchronous WBLE affects students' interest and motivation in learning mathematics at Shah Abdul Latif University (SALU), Khairpur.

Design/methodology/approach

This research uses a survey research design under a quantitative approach. Therefore, data are collected through a questionnaire about students' motivation and interest in learning mathematics via asynchronous WBLE. Data are collected from the students of four departments (BEd, BSCS, BBA, BS Mathematics) of SALU, Khairpur. However, as the nature of this study is quantitative, both descriptive and inferential statistics were used in the results and discussion, and a one-way ANOVA test was used. The Cronbach alpha test was also used to assess the item's reliability, and the items were found to be acceptable.

Findings

The findings of this study discovered that asynchronous WBLE has a significant impact on students' intrinsic, extrinsic and interest levels. The results indicated that there is a positive impact based on the level of mean range of asynchronous WBLE on mathematics students.

Research limitations/implications

The outcome of this study can be used as a guideline to understand and further plan or develop educational interventions based on the level of motivation and interest of mathematics students towards asynchronous WBLE in other contexts.

Originality/value

This is first study of its nature in the context of Khairpur district of Sindh that emphasizes on the motivation and interest of mathematics students toward asynchronous WBLE.

Details

The International Journal of Information and Learning Technology, vol. 39 no. 4
Type: Research Article
ISSN: 2056-4880

Keywords

Article
Publication date: 26 July 2022

Anitha D. and Kavitha D.

The purpose of this research study is to explore simple collaborative technique for teaching mathematics and thus improving the problem solving skills of the students. Better…

Abstract

Purpose

The purpose of this research study is to explore simple collaborative technique for teaching mathematics and thus improving the problem solving skills of the students. Better pedagogic activities are required to motivate the students to perceive mathematics as a subject that stimulates problem-solving skills required for engineers.

Design/methodology/approach

This paper presents a research study on the application of technology-supported collaborative learning in improving the problem-solving skills of first-year engineering students in a mathematics course. The experiment was conducted in a mathematics course “Engineering Calculus” with 286 first-year engineering students in two groups: experimental group (N = 60) and controlled group (N = 226). The academic performance of the students was measured and analyzed with statistical techniques.

Findings

From the results obtained, it was found that the academic performance of the experimental group was better than the controlled group. Also, interest shown by the students in the topic that dealt with collaborative learning was more than in other topics taught using conventional teaching methods.

Research limitations/implications

The teachers are required to find effective pedagogical activities to improve the problem-solving skills in mathematics. The research work proposes a collaborative method in mathematics for attaining higher cognitive level in an entry level engineering course. The limitation of this study lies in group formation techniques and the grading policy which deals only with individual assessment scores.

Practical implications

Practice of collaborative learning is made easy with simple technology. A clear strategy for the conduct of collaborative learning sessions has been presented. The solutions recommended are practically feasible and does not require any special infrastructure or specific training.

Social implications

Using technology in mathematics teaching may not be very easy for all teachers. Especially, for an undergraduate engineering fresher, mathematics may not be a very easy task. This work shall bridge the gap with simple technology-assisted collaborative learning. The teachers need not spend too much time and effort in learning technology for mathematics teaching. The effect of this learning is significant in terms of the performance and satisfaction evaluation.

Originality/value

This work presents a systematic implementation of collaborative learning that shall result in improved problem-solving skills and engaging learning sessions. The statistical analysis methods and the visualization of obtained results shall help in understanding the implications of the presented work. Practice of collaborative learning is made easy with simple technology. The solutions recommended are practically feasible and does not require any special infrastructure or specific training.

Article
Publication date: 11 March 2021

Jahneille Cunningham and Kimberley Gomez

The purpose of this paper is to highlight the ways racialization in K-12 mathematics classrooms has narrowed the understanding of mathematical learning for Black children.

Abstract

Purpose

The purpose of this paper is to highlight the ways racialization in K-12 mathematics classrooms has narrowed the understanding of mathematical learning for Black children.

Design/methodology/approach

Drawing on situated learning theory and funds of knowledge, the authors argue that the social learning context of mathematics classrooms has limited the understanding of what Black children are capable of mathematically. The authors suggest that as a community of practice, mathematics classrooms may be marginalizing Black children, as well as other students of color, by devaluing their community-based knowledge and ways of knowing.

Findings

The extant literature portrays Black children as struggling in mathematics; however, this research is overwhelmingly conducted based on school performance measures. Yet, if one looks beyond the classroom to Black children's homes and communities, a plethora of mathematical knowledge tied to cultural and community practices may be found. As such, Black children who struggle in mathematics classroom may be experiencing misalignment across contexts, rather than a lack of mathematical knowledge altogether.

Practical implications

This paper has implications for classroom practice, particularly teacher ideologies pertaining to community-based knowledge. The authors urge mathematics education researchers and practitioners to look beyond the classroom, as community-based mathematical practices may provide more insight into students’ mathematical capabilities. These implications are particularly important for educating students of color, who often experience a subpar classroom education.

Originality/value

In this paper, the authors provide a critical lens to situated learning theory, pushing mathematics education research to examine the underexplored topic of Black children's out-of-school mathematical practices.

Article
Publication date: 16 December 2019

Aaron Kessler, Melissa Boston and Mary Kay Stein

This study explores the teacher’s role for implementing a cognitive tutor (CT) intended to increase students’ knowledge of proportional reasoning and potential impacts on…

Abstract

Purpose

This study explores the teacher’s role for implementing a cognitive tutor (CT) intended to increase students’ knowledge of proportional reasoning and potential impacts on students’ learning.

Design/methodology/approach

Using a mixed methods approach to design-based research, the authors examine results from three different phases of the CT implementation using frameworks from mathematics education research.

Findings

Based on observations of 10 educators, the authors identify 4 different types of interactions among the CT, students and educators. Using observations and student assessment results (n = 134), the authors begin to build an argument that different types of interactions have the potential to impact students’ opportunities to learn in computer-directed learning environments.

Originality/value

The authors conclude that research on the efficacy of computer-directed learning environments should consider differences in implementation of CT materials and that the types of CT, student and educator interactions described herein provide a framework to support such exploration.

Details

Information and Learning Sciences, vol. 121 no. 1/2
Type: Research Article
ISSN: 2398-5348

Keywords

Article
Publication date: 16 July 2018

Zaenal Abidin, Anuradha Mathrani and Roberta Hunter

The use of technology in education is still seen as a symbol of modernity in Indonesia. Without adequate technological infrastructural support from institutions, teachers develop…

Abstract

Purpose

The use of technology in education is still seen as a symbol of modernity in Indonesia. Without adequate technological infrastructural support from institutions, teachers develop ways to incorporate technology into their classrooms. The purpose of this paper is to investigate the affective domain in learning mathematics with technology across genders and across two student groups, where in one group the students shared learning devices, while the other group of students used individual devices.

Design/methodology/approach

The study adopts both quantitative and qualitative methods and is based on data collected from five secondary schools in Indonesia.

Findings

The findings reveal attitudinal differences are associated with technology usage in mathematics classrooms. Quantitative measurements across four attitudinal subscales—mathematics motivation, attitudes to the use of technology in mathematics, technological confidence and mathematics confidence—indicate that affordances in technologies influence boys and girls attitudes; while qualitative data share further insights on gender perspectives related to attitudinal differences.

Research limitations/implications

Appropriate pedagogical approaches with equitable access to technologies are important for engaging students in learning mathematics with technology.

Social implications

This empirical study reveals aspects related to student participation with technologies in classrooms, which has important implications for student development.

Originality/value

The study contributes to literature on mathematics education related to the use of learning technologies in secondary schools of a developing country.

Details

The International Journal of Information and Learning Technology, vol. 35 no. 4
Type: Research Article
ISSN: 2056-4880

Keywords

Article
Publication date: 21 August 2017

Rex Bringula, Jan Sepli De Leon, Kharl John Rayala, Bernadette Anne Pascual and Kevin Sendino

The purpose of this study is to determine the effects of four different forms of feedback (such as, complete solution, line-by-line correction, line-by-line hint and…

Abstract

Purpose

The purpose of this study is to determine the effects of four different forms of feedback (such as, complete solution, line-by-line correction, line-by-line hint and correct-incorrect final answer) of a mobile-assisted learning application on linear equations and motivation of students towards mathematics learning on students’ mathematics performance.

Design/methodology/approach

Totally, 285 Grade 7 students (72 students each for the first-three feedback and 69 students for the last feedback) participated in the five-day experiment. A validated instrument was utilized to determine the motivation of students in learning mathematics.

Findings

It was revealed that students solved more problems and spent more time in the line-by-line hint type of feedback. The correct-incorrect final answer group had the most number of incorrect problems solved. It was found that the scores of the students would be different from one another after they utilized the app. Nonetheless, all of them learnt significantly from the app. Five steps of hierarchical regression revealed that all types of feedback were consistent predictors of posttest scores. Thus, the first null hypothesis stating that there is no significant difference between the pretest and posttest scores of the students when categorized by different forms of feedback was rejected. The second null hypothesis stating that the four types of feedback and motivation of students do not influence mathematics performance is partially rejected.

Research limitations/implications

The study can be replicated in a school with a different atmosphere.

Practical implications

The use of the application is highly recommended for students who are beginning to learn linear equations. Teachers can replicate the four types of feedback in an actual classroom setting.

Originality/value

It was confirmed that the four types of feedback can teach the students learn mathematics, regardless of the motivation of the students.

Details

International Journal of Web Information Systems, vol. 13 no. 3
Type: Research Article
ISSN: 1744-0084

Keywords

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