Meaning Equivalence (ME), Boundary of Meaning (BoM), and Granulary of Meaning (GoM)

2017 ◽  
pp. 58-68
Keyword(s):  
Learning Outcomes ◽  
Teaching And Learning ◽  
Multiple Representations ◽  
Digital Age ◽  
Building Blocks ◽  
Semantic Space ◽  
Conceptual Thinking ◽  
Sign Systems ◽  
Semantic Spaces ◽  
Meaning Equivalence

This chapter describe Meaning Equivalence (ME), Boundary of Meaning (BoM), and Granularity of Meaning (GoM). Meaning Equivalence (ME) is a polymorphous - one-to-many - transformation of meaning that signifies the ability to transcode equivalence-of-meaning through multiple representations within and across sign systems, and multiple definitions of a concept in multiple sign systems. Boundary of Meaning (BoM) is the boundary between two mutually exclusive semantic spaces in the sublanguage: (i) semantic space that contains only representations that do share equivalence-of-meaning with the Target Statement (TS); and (ii) semantic space that contains only representations that do not share equivalence-of-meaning with the TS. Granularity of Meaning (GoM) is the deepest level in which lexical label of a co-occurring subordinate concept appears in the Target Statement. It is therefore a measure of the ‘depth of exploration' of building blocks of a super-ordinate concept in TS. Boundary of Meaning (BoM) and Granularity of Meaning (GoM) are concepts in Pedagogy for Conceptual Thinking, a novel teaching and learning methodology in the digital age (Etkind, Kenett & Shafrir, 2016). These constructs describe important aspects of learning outcomes.

scholarly journals Pedagogy for Conceptual Thinking in the Digital Age: Enhancing Learning Outcomes with Meaning Equivalence Reusable Learning Objects (MERLO) Formative Assessments

2016 ◽  
Author(s):  
Uri Shafrir ◽  
Masha Etkind ◽  
Ron Kenett ◽  
Leo Roytman
Keyword(s):  
Learning Outcomes ◽  
Thinking Skills ◽  
Learning Objects ◽  
Formative Assessments ◽  
Transfer Of Knowledge ◽  
Continuous Increase ◽  
Conceptual Thinking ◽  
Learning Platform ◽  
Reusable Learning Objects ◽  
Meaning Equivalence

The research presented in this paper is the fruit of an ongoing international collaboration with the goal of enhancing students learning outcomes by implementing and sharing a novel pedagogy for conceptual thinking, and use of an innovative didactical and methodological tool: Meaning Equivalence Reusable Learning Objects (MERLO) that provide student-centered, weekly formative assessments for exploring and discussing conceptual situations in small groups. It was developed, tested, and implemented in Canada at University of Toronto and Ryerson University, as well as in Israel, Italy, Russia, and Australia, in different knowledge domains, including: physics; biology; mathematics; mathematics teacher education; teacher training; developmental psychology; English as a second language; architecture; management; business; project management. Statistical analysis of MERLO data collected since 2002, shows that conceptual thinking enhance learning outcomes and deepens students’ comprehension of the conceptual content of learned material.  Conceptual thinking is learnable, and provide metrics to document continuous increase in higher-order thinking skills such as critical conceptual thinking, transfer of knowledge, and problem solving. Pedagogy for conceptual thinking is currently implemented with Brightspace (http://www.brightspace.com/), Integrated Learning Platform (ILP) offered by D2L (http://www.d2l.com/) that supports customizable online pedagogy.

Meaning Equivalence Reusable Learning Objects (MERLO)

2017 ◽  
pp. 80-102
Keyword(s):  
Teaching And Learning ◽  
Learning Objects ◽  
Knowledge Domain ◽  
Representational Competence ◽  
Attentional Processing ◽  
Sign Systems ◽  
Reusable Learning Objects ◽  
Semiotic Representations ◽  
Meaning Equivalence ◽  
Teaching Learning

In the chapter we discuss Meaning Equivalence Reusable Learning Objects (MERLO), a multi-dimensional database that allow sorting and mapping of important concepts in a given knowledge domain through multi-semiotic representations in multiple sign systems, including: exemplary target statements of particular conceptual situations, and relevant other statements. MERLO pedagogy guides sequential teaching/learning episodes in a course by focusing learners' attention on meaning. The format of MERLO assessment item allow the instructor to assess deep comprehension of conceptual content by eliciting responses that signal learners' ability to recognize, and to produce, multiple representations, in multiple sign-systems - namely, multi-semiotic - that share equivalence-of-meaning. Exposure of scholars and learners to multi-semiotic inductive questions enhance cognitive control of inter-hemispheric attentional processing and enhance higher-order thinking. It highlights the important role of representational competence in scholarship, teaching and learning.

High Order of Conceptual Thinking

2020 ◽  
pp. 1-21
Author(s):  
Masha Etkind
Keyword(s):  
Learning Outcomes ◽  
Common Knowledge ◽  
Higher Order Thinking ◽  
Higher Order ◽  
Conceptual Content ◽  
Attentional Processing ◽  
Conceptual Thinking ◽  
Information Research ◽  
Recent Developments ◽  
Meaning Equivalence

This chapter describe a novel pedagogy for conceptual thinking and peer cooperation with meaning equivalence reusable learning objects (MERLO) that enhances higher-order thinking; it deepens comprehension of conceptual content and improves learning outcomes. The evolution of this instructional methodology follows insights from recent developments: analysis of patterns of evolving concepts in human experience that led to the emergence of concept science, development of digital information, research in neuroscience and brain imaging showing that exposure of learners to multi-semiotic problems enhance cognitive control of inter-hemispheric attentional processing in the lateral brain, and increase higher-order thinking. The research on peer cooperation and indirect reciprocity document the motivational effect of being observed, a psychological imperative that motivates individuals to cooperate and to contribute to better common knowledge. Teaching courses in History and Theory of Architecture to young architecture students with pedagogy for conceptual thinking enhance higher-order thinking, deepen comprehension of conceptual content, and improve learning outcomes; it allows one to connect analysis of historic artifact, identify pattern of design ideas extracted from the precedent, and transfer concepts of good design into the individual's creative design process.

Meaning Equivalence Reusable Learning Objects (MERLO) Access to Knowledge in Early Digital Era and Development of Pedagogy for Conceptual Thinking

2020 ◽  
pp. 22-53
Author(s):  
Uri Shafrir
Keyword(s):  
Learning Outcomes ◽  
Learning Objects ◽  
Formative Assessments ◽  
Conceptual Thinking ◽  
University Of Toronto ◽  
Digital Era ◽  
Reusable Learning Objects ◽  
Digital Knowledge ◽  
Meaning Equivalence ◽  
And Mathematics

This chapter describes the effects of availability of digital knowledge on teaching, learning, and assessment, and the emergence of pedagogy for conceptual thinking with meaning equivalence in different knowledge domains in early digital era. It includes three proof-of-concept implementations of meaning equivalent reusable learning objects (MERLO) in three different contexts: 1) Course ‘Risk management in the Supply Chain' at Material and Manufacturing Ontario (MMO) Centre of Excellence, in 2002, to evaluate the potential of MERLO to assess and improve learning outcomes in workplace workshops to be offered jointly by MMO and University of Toronto Innovation Foundation; 2) in 2004, secondary school courses in mathematics, physics, and chemistry at Russian Academy of Sciences, Ioffe Physical-Technical Institute, Lycee ‘Physical-Technical High School' at St. Petersburg, to train teachers in administering MERLO formative assessments and evaluate learning outcomes in STEM courses (science, technology, engineering, and mathematics); 3) in 2006, implementing MERLO pedagogy, including development of MERLO databases for grades 9 – 12 mathematics courses at Independent Learning Center (ILC) of TVOntario.

Pengaruh konsep diri, self efficacy dan motivasi terhadap Learning outcome mata pelajaran Aqidah Akhlak di kelas XI MA Pacet Mojokerto

2017 ◽  
Vol 1 (1) ◽  
pp. 37
Author(s):  
Happy Ikmal
Keyword(s):  
Learning Outcomes ◽  
Significant Relationship ◽  
Self Efficacy ◽  
Teaching And Learning ◽  
Regression Coefficient ◽  
T Test ◽  
Self Concept ◽  
Working Hypothesis ◽  
Calculation Results ◽  
The Right

Teaching and learning activities is a conscious activity and aims. Therefore, for these activities can be run well and achieve the expected goals, it must be done with the strategy or the right learning approach .. The purpose of this study were: 1) to describe the influence of Self-Concept on the results of studying chemistry at Class XI MA Pacet Mojokerto. 2) Describe the effect of self-efficacy on Learning outcomes chemistry in Class XI MA Pacet Mojokerto 3) Describe the effect of motivation on Learning outcomes chemistry in Class XI MA Pacet Mojokerto 4) Describe the relationship Self-concept, self-efficacy and motivation to Results studied chemistry at Class XI MA Pacet Mojokerto. From the results of the analysis can be summarized as follows: 1) There is a significant relationship between self-concept of the Learning outcomes chemistry inquiry model. T test against self-concept variables (X1) obtained regression coefficient (B) 0.440 (44.0%), coefficient (Beta) 0.091, tcount of 0.378 with significance 0.006 t. Because of the significance of t less than 5% (0.007 <0.05), the Nil Hypothesis (H0) is rejected and working hypothesis (Hi) is received. 2) There is a significant relationship between self-efficacy toward chemistry Learning outcomes inquiry model. T test for Self-efficacy variable (X2) obtained regression coefficient (B) 0.329 (32.9%), coefficient (Beta) 0.124, tcount of 0.436 with a significance of 0.009 t. Because of the significance of t less than 5% (0.008 <0.05), the Nil Hypothesis (H0) is rejected and working hypothesis (Hi) is received. 3) There is a significant relationship between motivation to learn chemistry results inquiry model. T test for motivation variable (X3) obtained regression coefficient (B) 0.130 (13.0%), coefficient (Beta) 0.065, tcount of 0.230 with a significance of 0.001 t. Because of the significance of t less than 5% (0.001 <0.05), the Nil Hypothesis (H0) is rejected and working hypothesis (Hi) received 4) From the calculation results obtained Fhitung value 2,249 (significance F = 0.001). So Fhitung> F table (2,249> 2:03) or Sig F <5% (0.001 <0.05). It means that together independent variables consisting of variable self-concept (X1), Self-efficacy (X2), motivation (X3) simultaneously to variable results of studying chemistry (Y).

Upaya Meningkatkan Hasil Belajar IPA pada Materi Keseimbangan Ekosistem melalui Penerapan Model Contextual Teaching And Learning (CTL) Siswa Kelas VI SD Negeri 1 Manggeng

2020 ◽  
Vol 1 (3) ◽  
pp. 333-340
Author(s):  
Syarifah Roswan
Keyword(s):  
Learning Outcomes ◽  
Teaching And Learning ◽  
Student Learning Outcomes ◽  
Learning Outcome ◽  
Learning Model ◽  
Outcome Data ◽  
Contextual Teaching ◽  
Data Collection Technique ◽  
Written Test ◽  
Academic Year

The purpose of this study was to increase the learning outcomes of IPA in the Ecosystem Balance mate-rial through the application of the Contextual Teaching And Learning (CTL) learning model for class VI students of SD Negeri 1 Manggeng for the 2017/2018 academic year. The research methodology is Classroom Action Research (CAR) consisting of two cycles and each cycle consisting of two findings. Each cycle consists of planning, implementing, observing and reflecting. The data collection technique is to collect test scores that are carried out at the end of each lesson in each cycle using a question in-strument (written test). The learning outcome data were analyzed by means of percentage statistics. The results showed that the completeness of student learning outcomes increased from 66,67% in the first cycle and increased to 83,33% in the second cycle. The application of the Contextual Teaching And Learning (CTL) learning model can increase the learning outcomes of IPA in the Ecosystem Balance material of class VI SD Negeri 1 Manggeng for the 2017/2018 academic year

PENERAPAN MODEL PEMBELAJARAN KOOPERATIF TIPE TEAM GAMES TOURNAMENT (TGT) UNTUK MENINGKATKAN HASIL BELAJAR IPS SISWA KELAS IVC SEKOLAH DASAR NEGERI 108 PEKANBARU

2014 ◽  
Vol 3 (1) ◽  
pp. 40
Author(s):  
Lazim. N ◽  
Zulkifli ' ◽  
Rima '
Keyword(s):  
Cooperative Learning ◽  
Social Science ◽  
Learning Outcomes ◽  
Teaching And Learning ◽  
Mathematics Learning ◽  
Average Score ◽  
Team Games ◽  
Social Science Study ◽  
Minimum Criteria ◽  
Daily Test

The problem on this research was that the low score of students’ learning on social science study. There werestill a lot of students that did not understand basic concepts and tended to memorize examples. It was showed by58,07% from 31 students achieving minimum criteria completeness (KKM) from students’ test score in IVCclass of SDN 108 Pekanbaru for Koperasi subject. The students’ average score was 62,4, and the KKM stated byschool was 68. Based on this problem it was needed to do an action research using cooperative learning modelsTeams Games Tournaments (TGT) type. This research aims to know whether the implementation of cooperativelearning models Teams Games Tournaments (TGT) type can improve students’ social science learningoutcomes at IVC class of SDN 108 Pekanbaru in 2013/2014 with 31students. This research was done in twocycles. First cycle consists of three meetings with one daily test and first tournament, and cycle II consists ofthree meetings with one daily test and second tournament. Instruments to collect data in this research areteacher’s observation sheets, students’ observation sheet, and tests. By implementing using cooperative learningmodels Teams Games Tournaments (TGT) type can improve students’ mathematics learning outcomes.Percentage of completeness in basic score was 54,8% (62,40 in average), and it changed into 77,4% (75,6 inaverage) in cycle I and 87,1% (81,1 in average) in cycle II. Percentage of teacher’ activity in cycle I was 81,9%and 92,3% in cycle II. Then percentage of students’ activity in cycle I was 75,4% and 92,2% in cycle II. Fromthose data it proves that the implementation of cooperative learning models Teams Games Tournaments (TGT)type can improve students’ learning outcomes at IVC class of SDN 108 Pekanbaru.Key Words : cooperative teaching and learning model, Teams Games Tournaments (TGT),learning outcomes

PENERAPAN STRATEGI CONTEXTUAL TEACHING AND LEARNING (CTL)UNTUK MENINGKATKAN HASIL BELAJAR IPS SISWA KELAS VSD NEGERI 010 SILIKUAN HULU KECAMATAN UKUI

2016 ◽  
Vol 5 (2) ◽  
pp. 320
Author(s):  
Siwi Enggar Makarti
Keyword(s):  
Learning Outcomes ◽  
Primary Schools ◽  
Teaching And Learning ◽  
Descriptive Analysis ◽  
Analytical Techniques ◽  
Research Subjects ◽  
Student Activities ◽  
Student Activity ◽  
Average Value ◽  
Contextual Teaching

The background of this study is the low learning outcomes IPS. It is characterized by the acquisition of the average value of social studies students at 59.10 with the percentage of students learning completeness amounted to 50.00% from 20 students. This research is a classroom action research (PTK) which aims to improve student learning outcomes through the implementation of strategies IPS Contextual Teaching and Learning (CTL). This study was conducted in 010 primary schools Silikuan Ukui Hulu subdistrict, with research subjects fifth grade students with a number of 20 students. This study was conducted by two cycles. The data used in this study are the activities of teachers, student activities, and learning outcomes are collected using the observation technique teacher and student activities and written tests, while the analytical techniques used in this research is descriptive analysis. The study states that the acquisition of the activities of teachers and students and learning outcomes in each cycle has increased. This is supported by: (1) the percentage of activity the teachers in the first cycle of the first meeting by 45%, in the first cycle of meetings II percentage teacher activity by 52%, the percentage of teacher activity in the second cycle of the first meeting by 65%, the percentage of teacher activity in the second cycle meeting II by 75%; (2) the percentage of student activity in the first cycle of the first meeting by 49%, in the first cycle of meetings II percentage of student activity by 60%, the percentage of the activity of students in the second cycle the first meeting by 63%, the percentage of student activity on the second cycle of meeting II by 79% ; (3) learning outcomes in basic score of 59,10.Dan which reached KKM 65 only 10 students or (50%). The first cycle of the average value obtained by the students reached 63.6. Students who achieve KKM there are 13 students or 65 (65%). Cycle II average value obtained students achieve value above 67 means the KKM. Students who reached the last 16 students or (80%).

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