Design integration of interactive whiteboards in an open distance mathematics programme / Hermina Hendrina Dreyer

Dreyer, Hermina Hendrina

January 2015

Worldwide, people who are unable to study full-time at residential higher education institutions choose distance education as their mode of study. Such students who are mostly employed adults with multiple responsibilities face many challenges in the process. Students majoring in Mathematics often struggle to master the mathematics content of the major modules and therefore have to attempt the examination several times. The UODL at the Potchefstroom campus of the NWU incorporated IWBs as learning technology in order to improve the communication and support to their students. This study aims to determine how scaffolding of mathematics concepts can be facilitated via IWBs in order to enhance the learning experience of teacher-students towards their understanding of the fundamental principles of mathematics. The study is based on the Stoner model for implementing ICT learning technologies and the focus of the study relates specifically to the design integration phase of the Stoner cycle. The population for the study consisted of all OLG teacher-students who were registered for NWPK 512—a mathematics major module within the ACE programme. A group of ten participants attending at the White River centre and a control group of ten participants from another centre were used during the study. The study followed a mixed-method research design and was performed according to a Kirkpatrick evaluation for training programmes which involves evaluation on five different levels, namely reaction, perception whether learning occurred, change in behaviour, results and return on investment. The qualitative data were analysed through ATLAS.ti ™ augmented with descriptive statistical techniques. Descriptive statistical techniques and effect sizes were calculated to analyse the quantitative data. Reliability and validity of the instrument were calculated. Findings of the study indicated that scaffolding of mathematical concepts via IWBs enhanced students’ understanding of the fundamental concepts of mathematics. The group of participants performed significantly better after they have attended the scaffolding IWB sessions. The introduction to and incorporation of scaffolds for learning mathematics over distance can create an environment of effective mathematics education for all teacher-students as well as for the students in their respective classrooms. / MEd (Curriculum Development), North-West University, Potchefstroom Campus, 2015

Mathematics education

Open distance learning

Technology-enhanced learning

Learning with technology

Interactive whiteboard

Scaffolding

Constructivism

Teaching strategy

Kirkpatrick evaluation

Design integration of interactive whiteboards in an open distance mathematics programme / Hermina Hendrina Dreyer

Dreyer, Hermina Hendrina

January 2015

Worldwide, people who are unable to study full-time at residential higher education institutions choose distance education as their mode of study. Such students who are mostly employed adults with multiple responsibilities face many challenges in the process. Students majoring in Mathematics often struggle to master the mathematics content of the major modules and therefore have to attempt the examination several times. The UODL at the Potchefstroom campus of the NWU incorporated IWBs as learning technology in order to improve the communication and support to their students. This study aims to determine how scaffolding of mathematics concepts can be facilitated via IWBs in order to enhance the learning experience of teacher-students towards their understanding of the fundamental principles of mathematics. The study is based on the Stoner model for implementing ICT learning technologies and the focus of the study relates specifically to the design integration phase of the Stoner cycle. The population for the study consisted of all OLG teacher-students who were registered for NWPK 512—a mathematics major module within the ACE programme. A group of ten participants attending at the White River centre and a control group of ten participants from another centre were used during the study. The study followed a mixed-method research design and was performed according to a Kirkpatrick evaluation for training programmes which involves evaluation on five different levels, namely reaction, perception whether learning occurred, change in behaviour, results and return on investment. The qualitative data were analysed through ATLAS.ti ™ augmented with descriptive statistical techniques. Descriptive statistical techniques and effect sizes were calculated to analyse the quantitative data. Reliability and validity of the instrument were calculated. Findings of the study indicated that scaffolding of mathematical concepts via IWBs enhanced students’ understanding of the fundamental concepts of mathematics. The group of participants performed significantly better after they have attended the scaffolding IWB sessions. The introduction to and incorporation of scaffolds for learning mathematics over distance can create an environment of effective mathematics education for all teacher-students as well as for the students in their respective classrooms. / MEd (Curriculum Development), North-West University, Potchefstroom Campus, 2015

Mathematics education

Open distance learning

Technology-enhanced learning

Learning with technology

Interactive whiteboard

Scaffolding

Constructivism

Teaching strategy

Kirkpatrick evaluation

A class practice to improve student’s attitude towards mathematics

Mammana, Maria Flavia, Pennisi, Mario

07 May 2012

For many students, mathematics, traditionally thought to be difficult and dull, is often considered inaccessible, generating a negative attitude towards it. In order to encourage a positive attitude towards mathematics, we propose class practices that, through research activities, will lead the students to experiment a similar path to the one that has given, as a final product, a structured theory, so as to enhance their self-efficacy, give a correct vision of the discipline and stimulate positive emotions. This can be realized, for example, as a “laboratory activity” in which the students compare ideas, intuitions, arguments, and work together to obtain results, using their critical capabilities in a collaborative learning activity. A team of university professors and high school teachers has developed a laboratory activity that focuses on some properties of quadrilaterals. The activity has at any rate been experimented in different first biennium classes of some high schools and has obtained very good results.

Mathematiklabor

Dynamische Geometrie

Selbstwirksamkeit

Math laboratory

teaching/learning with technology

Dynamic Geometry systems

self-efficay

ddc:510

rvk:SD 2009

A class practice to improve student’s attitude towards mathematics

Mammana, Maria Flavia, Pennisi, Mario

07 May 2012

For many students, mathematics, traditionally thought to be difficult and dull, is often considered inaccessible, generating a negative attitude towards it. In order to encourage a positive attitude towards mathematics, we propose class practices that, through research activities, will lead the students to experiment a similar path to the one that has given, as a final product, a structured theory, so as to enhance their self-efficacy, give a correct vision of the discipline and stimulate positive emotions. This can be realized, for example, as a “laboratory activity” in which the students compare ideas, intuitions, arguments, and work together to obtain results, using their critical capabilities in a collaborative learning activity. A team of university professors and high school teachers has developed a laboratory activity that focuses on some properties of quadrilaterals. The activity has at any rate been experimented in different first biennium classes of some high schools and has obtained very good results.

info:eu-repo/classification/ddc/510

ddc:510

Emotions on Learning with Technology

Jisoo Hwang (10867428)

03 August 2021

<div> <div> <div> <p>Previous work has identified the many difficulties that students experience in learning abstract concepts in STEM. Past studies have also identified the critical role that emotions play on students' motivation to learn. As new learning technologies are developed, they enable visualizing complex scientific concepts which can be non-visible thus assisting students' understanding of abstract ideas as well as improving their motivation as they learn. This study investigated two learning technologies and compared them to examine 1) their effectiveness on learning concepts of electricity in physics and 2) the interplay between learning with technology and emotions. Participants were randomly assigned to either Inquiry-Based Learning (IBL) with a computer simulation or Game-Based Learning (GBL) with a computer game which addressed concepts of electricity in physics. During the experiment, students in the IBL condition explored materials by using the computer simulation and posed hypotheses and questions on their own with a guiding worksheet for IBL. Students in the GBL condition played an educational computer game following the guiding worksheet while they were meeting challenges created by the game with a guiding worksheet for GBL. Students' learning gains were assessed by comparing their pretest and posttest scores. Emotions were self-reported after the posttest by responding to a survey that measured 6 emotional scales that students may perceive during the experiment. The study found that both IBL and GBL enhanced students' understanding of given concepts. However, there was no statistically significant difference between the two conditions in terms of learning gains. Students in the IBL achieved higher mean learning gains, whereas students in the GBL showed that they were more engaged. At the same time, students in the GBL perceived more confusion and frustration compared to students in the IBL. <br></p> </div> </div> </div>

Educational Psychology

Technology not elsewhere classified

Educational Technology and Computing

Inquiry-Based Learning

Game-Based Learning

STEM education

Emotions

Learning with technology