scholarly journals Multiple Means of Engagement Strategies for Maximising the Learning of Mathematics in Pandemic-regulated Classrooms

2021 ◽  
Vol 20 (8) ◽  
pp. 68-90
Author(s):  
Matshidiso M Moleko
Keyword(s):  
Mathematics Teachers ◽  
Universal Design For Learning ◽  
Mathematics Learning ◽  
Self Regulation ◽  
Corrective Feedback ◽  
Real Life ◽  
Disadvantaged Area ◽  
Engagement Strategies ◽  
Design For Learning ◽  
Varying Demand

Many learners find mathematics learning challenging. In response to that actuality, this paper highlights mathematics teachers’ experiences of, and insights into how they adopted and implemented the principle of “Multiple Means of Engagement” (MME) to maximise learning in pandemic-regulated classrooms (in the context of the study, characterised by alternative weeks of attendance, social distancing and wearing of masks). The MME principle is one of the three universal design for learning (UDL) key principles, which guides on how diverse groups of learners can be effectively catered for. The empirical processes, premised on a phenomenological case study, commenced with focus group discussions with 8 high school mathematics teachers from a previously disadvantaged area, who have prior-training in MME. A free attitude interview (FAI) technique was used, to afford the teachers the opportunity to share their insights into the application of MME in their pandemic-regulated classrooms. The content analysis of the teachers’ reflections revealed the following aspects: clear instructions, step-by-step guides, checklists to enhance self-regulation, varying demand and resources to meet challenges, fostering collaboration, providing corrective feedback to sustain effort and persistence, addressing mathematical vocabulary and using real-life situations to recruit interest. These strategies were found not only essential in maximising learning in mathematics under normal circumstances, but also indispensable during the prevailing conditions of the pandemic. The findings therefore suggest MME as a suitable mathematical approach during this Covid19 period.

scholarly journals The Goal of the Universal Design for Learning: Development of All to Expert Learners

2021 ◽  
pp. 23-57
Author(s):  
Julita Navaitienė ◽  
Eglė Stasiūnaitienė
Keyword(s):  
General Education ◽  
Universal Design ◽  
Universal Design For Learning ◽  
Self Regulation ◽  
Learning Goals ◽  
Learning Needs ◽  
Personal Learning ◽  
General Education Curriculum ◽  
Design For Learning ◽  
Learning Development

AbstractOver the past 10 years, every learner’s ability to achieve the highest level of learning success has become quite an important topic. The Universal Design for Learning (UDL) sets a goal to allow all learners to achieve their optimal learning experience that matches inclusive education. Learners who can assess their own learning needs set their personal learning goals, and monitor their progress are termed the expert learners (McDowell. Developing expert learners: a roadmap for growing confident and competent students. Corwin, 2019). This chapter focuses on theoretical backgrounds for expert learners’ paradigm. It starts from fundamental constructivist theories and moves towards the theory of self-regulation and cognitive neuroscience approach. It concentrates on the theory of self-determination, which, in our opinion, validates in the best way the nature of the expert learners’ development. Implementation of the Universal Design for Learning allows all learners to access, participate in, and progress in the general-education curriculum. This chapter presents the specific profile of the expert learners covering their main characteristics and qualities and revealing the essence of the UDL framework. Educators could use the profile as the educational guidelines conductive to understand how the process of becoming the expert learner proceeds.

Toward More Inclusive Education: An Empirical Test of the Universal Design for Learning Conceptual Model Among Preservice Teachers

2020 ◽  
pp. 002248712096552 ◽  
Author(s):  
Júlia Griful-Freixenet ◽  
Katrien Struyven ◽  
Wendelien Vantieghem
Keyword(s):  
Preservice Teachers ◽  
Inclusive Education ◽  
Teacher Educators ◽  
Universal Design ◽  
Universal Design For Learning ◽  
Empirical Test ◽  
Self Regulation ◽  
Growth Mindset ◽  
Educational Environments ◽  
Design For Learning

Universal Design for Learning (UDL) holds considerable promise to create inclusive educational environments. Nevertheless, the most recent theoretical UDL model, which includes both teachers’ philosophy and praxis of teaching, has never been tested empirically. Therefore, this study aims to validate the UDL model as a “whole” among preservice teachers. Results show that the three philosophical constructs of UDL predict the performance of preservice teachers’ practices associated with UDL. These constructs are growth mindset about learning, self-efficacy to implement inclusion, and self-regulation and motivation for teaching. Results also show that preservice teachers think and reason about UDL not as three separate principles (i.e., engagement, representation, action, and expression) but in an interrelated way as the analysis shows them to be a unidimensional factor. Finally, this article discusses the implications of a validated model on UDL for teacher-educators, practitioners, and researchers.

scholarly journals Enhancing Executive Function While Addressing Learner Variability in Inclusive Classrooms

2020 ◽  
Vol 56 (3) ◽  
pp. 179-185
Author(s):  
Eleazar Vasquez ◽  
Matthew T. Marino
Keyword(s):  
Working Memory ◽  
Executive Function ◽  
Students With Disabilities ◽  
Cognitive Flexibility ◽  
Universal Design ◽  
Universal Design For Learning ◽  
Self Regulation ◽  
Social Inhibition ◽  
Learning Framework ◽  
Design For Learning

Executive function is an umbrella term involving working memory, planning, organization, social inhibition, self-regulation, and cognitive flexibility. It is an area where many students with disabilities struggle. This column describes practical ways to enhance executive functioning in students with disabilities using the universal design for learning framework and executive function coaching.

Exploring Preservice Teachers Engagement With Live Models of Universal Design for Learning and Blended Learning Course Delivery

2020 ◽  
pp. 016264342097321
Author(s):  
Denyse V. Hayward ◽  
Amin Mousavi ◽  
Michael Carbonaro ◽  
Amanda P. Montgomery ◽  
William Dunn
Keyword(s):  
Preservice Teachers ◽  
Blended Learning ◽  
Universal Design ◽  
Universal Design For Learning ◽  
Self Regulation ◽  
Time Of Day ◽  
Course Delivery ◽  
Design For Learning ◽  
Day Of The Week ◽  
K 12

Universal Design for Learning (UDL) and Blended Learning (BL) formats, are widely adopted across K–12 learning environments. Upon graduation, preservice teachers may be expected to implement UDL and BL practices. The present study was motivated by the need to provide preservice teachers with live modeling of UDL and BL concepts. Learning analytics data from 197 preservice teachers was examined for engagement with UDL/BL Access features (location, day-of-the-week, time-of-day, and regularity), Content features (screencasts and quizzes), and to determine if there was a relationship between engagement and achievement. Examination of the learning management system login data revealed regular access to the digital content across differing locations, week days, and time of day. Associations were significant between academic performance and all features. Designing the BL digital course components following UDL principles appears to have served as a self-regulation enabler for preservice teachers themselves while providing exemplars to adopt in their future practice.

scholarly journals Increasing Engagement of English Learners Through Universal Design for Learning

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Melinda S. Eichhorn ◽  
Amanda E. Lowry ◽  
Kristen Burke
Keyword(s):  
English Learners ◽  
Classroom Practice ◽  
Universal Design ◽  
Universal Design For Learning ◽  
Self Regulation ◽  
Illustrative Case ◽  
Guided Practice ◽  
Design For Learning ◽  
Case Vignettes ◽  
K 12

English learners (ELs) are the fastest growing segment of K–12 students. When ELs do not respond to instruction as quickly as their English-speaking peers, teachers may focus on their deficits and wrongly label them as having a learning disability. In this article on the universal design for learning engagement guidelines, we summarize how we have anticipated learning barriers and increased engagement with academic content for ELs in our practice. By teaching strategies for self-regulation and individual coping skills, providing guided practice and support to sustain effort, and giving students various ways to achieve the same goal in a safe learning environment, teachers of ELs and collaborative staff can engage students in their classrooms and schools. We explore universal design for learning for ELs through an assets-based approach and suggest strategies for elementary and secondary teachers to modify for ELs through illustrative case vignettes based on our classroom practice.

Increase Engagement and Learning

2020 ◽  
pp. 137-147
Author(s):  
Philip Gene Pulley
Keyword(s):  
Universal Design ◽  
Universal Design For Learning ◽  
Learning Experience ◽  
Real Life ◽  
Fair Use ◽  
Growing Up ◽  
Course Content ◽  
The World ◽  
Design For Learning ◽  
Interchange Format

With the infusion of educational technology and internet access into classrooms, including 1:1 laptops, iPads, and Chromebooks, educators must realize the importance of visuals for their online course content. Today's students are growing up in an internet-forward culture. Social media is an important part of how students connect with their friends, peers, and the world. Their interactions use accompanying memes, emojis, and GIFs (graphics interchange format) that are used to describe and supplement events happening “IRL”—in real life. Just as we use technology to enhance the learning experience in the classroom, it is perhaps equally as important to speak students' language to improve both student engagement and learning while using those devices in the classroom. This chapter reviews research concerning visual use in course content, discusses visuals in the context of universal design for learning (UDL), provides tips on for using visual appeal to improve engagement and learning, briefly discusses the topic of copyright and fair use, and gives examples of visuals including GIFs.

Analisis Motivasi Belajar Siswa SMP Dalam Pembalajaran Outdoor-Modeling Mathematics Berdasarkan Gaya Belajar

2019 ◽  
Vol 2 (2) ◽  
Author(s):  
Sofnidar ◽  
Hartina ◽  
Kamid ◽  
Khairul Anwar
Keyword(s):  
Student Behavior ◽  
Mathematics Learning ◽  
Real Life ◽  
Data Retrieval ◽  
Learning Activities ◽  
Learning Activity ◽  
Stimulus Selection ◽  
Learning Behavior ◽  
Research Subjects ◽  
Motor Activities

Prilaku belajar adalah suatu sikap y ang muncul dari diri siswa dalam menanggapi dan meresponi setiap kegiatan belajar mengajar yang terjadi. salah satu wujud dari prilaku adalah motivasi belajar. Menurut teori behavioristik, belajar adalah perubahan tingkah laku sebagai akibat adanya interaksi antara stimulus (rangsangan) dan respon (tanggapan). Stimulus yang diberikan guru dalam pembelajaran tertuang dalam rancangan aktifitas pembelajaran. Aktivitas pembelajaran merupakan kegiatan yang dirancang guru untuk mewujudkan dan atau menciptkan kondisi belajar siswa (stimulus). Pemilihan aktivitas belajar yang sesuai memungkinkan untuk terjadinya efektivitas pedagogis dalam mencapai tujuan pembelajaran, maupun dapat membentuk prilaku positif siswa (respon) dalam belajar. Desain pembelajaran berbasis outdoor-medelling mathematics memuat serangkain aktivitas kegiatan pembelajaran yang berbassis investigasi konteks masalah outdoor (masalah real life) dengan muatan konten materi modeling mathematics. Pada makalah ini akan membahas prilaku belajar dan bagaimana motivasi terbentuk melaui aktifitas kegiatan pebelajaran outdoor-medelling mathematics yang diklasifikasikan menjadi motoractivities mentalactivities, visualactivities, emotionalactivities, motoractivitie.Melalui metode kulitatif deskriptif, dengan mengambil 20 siswa kelas IX-B SMP N 1 Muaro Jambi yang mempunyai gaya belajar visual, auditorial, dan kinestetik. Setelah pelaksanaan pembelajaran, pengambilan data dilakukan melalui angket, dan lembar pengamatan beserta wawancara ke subjek penelitian. Hasil penelitian menunjukan bahwa aktivitas belajar dalam pembelajaran yang dapat memotivasi siswa belajar matematika adalah visualactivities sebesar 74,16%; motoractivities sebesar 96,67%; mentalactivities sebesar 71,66%; dan emotionalactivities sebesar 73,33%. Berdasarkan hasil analisis yang dilakukan aktivitas belajar dalam pembelajaran outdoor-medelling mathematics matematika yang paling dominan dapat memotivasi siswa belajar adalah motoractivities dengan persentasi 96,67% dengan kriteria sangat baik dan sangat memotivasi siswa belajar matematika dalam pembelajaran luar kelas. Indikatornya adalah melakukan percobaan. Kelebihan aktivitas belajar dalam pembelajaran outdoor-medelling mathematics adalah, aktivitas belajar lebih membuat siswa termotivasi untuk belajar matematika. Siswa menjadi lebih aktif dan interaksi dengan teman sesamanya semakin meningkat juga. Adapun kelemahan aktivitas belajar dalam pembelajaran luar kelas adalah sulit untuk siswa terfokus dalam aktivitas belajar yang sedang dilakukan.   Learning behavior is an attitude that arises from students in responding and responding to each teaching and learning activity that occurs. one form of behavior is learning motivation. According to behavioristic theory, learning is a change in behavior as a result of an interaction between stimulus (stimulus) and response (response). The stimulus given by the teacher in learning is contained in the design of learning activities. Learning activities are activities designed by the teacher to realize and or create the conditions for student learning (stimulus). Selection of appropriate learning activities allows for the occurrence of pedagogical effectiveness in achieving learning goals, and can form positive student behavior (response) in learning. Outdoor-based learning mathematics learning design contains a series of learning activities based on the context of outdoor problems (real life problems) with the content of modeling mathematics material. In this paper will discuss learning behavior and how motivation is formed through the activities of learning activities outdoor-modeling mathematics which are classified into mental activities, visual activities, emotional activities, motor activities. Through the descriptive qualitative method, taking 20 students of class IX-B Muaro Jambi Middle School 1 who have visual, auditory, and kinesthetic learning styles. after the implementation of learning, data retrieval was carried out through questionnaires, and observation sheets and interviews to the research subjects. The results showed that learning activities in learning that could motivate students to learn mathematics were visual activities at 74.16%, motor activities at 96.67%, mental activities at 71.66%, and emotional activities at 73.33 %%. Based on the results of the analysis carried out learning activities in mathematics outdoor-modeling mathematics learning the most dominant motivating students to learn is motor activities with a percentage of 96.67% with very good criteria and very motivating students to learn mathematics in learning outside the classroom. The indicator is to experiment. The advantages of learning activities in outdoor-modeling mathematics learning are that learning activities make students more motivated to learn mathematics. Students become more active and interactions with their peers also increase. The weaknesses of learning activities in learning outside the classroom is difficult for students to focus on the learning activities that are being done.

Sign in / Sign up

Export Citation Format

Share Document