scholarly journals The Development of Student Worksheet Based on Realistic Mathematics Education in Ordinary Differential Equations of Order-1

2021 ◽  
Vol 1742 ◽  
pp. 012018
Author(s):  
Yarman ◽  
A Fauzan ◽  
Armiati ◽  
Yerizon ◽  
Lufri
Keyword(s):  
Mathematics Education ◽  
Differential Equations ◽  
Ordinary Differential Equations ◽  
Realistic Mathematics Education ◽  
Realistic Mathematics

Inquiry-oriented differential equations: a guided journey of learning

2019 ◽  
Vol 39 (3) ◽  
pp. 201-212
Author(s):  
Samer Habre
Keyword(s):  
Mathematics Education ◽  
Differential Equations ◽  
Mathematical Knowledge ◽  
Realistic Mathematics Education ◽  
Mathematical Learning ◽  
American University ◽  
Realistic Mathematics ◽  
Lebanese American University ◽  
Course Outcomes ◽  
Oriented Approach

Abstract This study conducted at the Lebanese American University in spring 2018 reports on an inquiry-oriented differential equations class where the course curriculum falls within the realm of Realistic Mathematics Education. The focus of the study is on some curriculum tasks and how they assist students reinvent successfully key mathematical notions covered in most introductory differential equations courses. While the results show remarkable cognitive gains in understanding and thinking, reinventing knowledge was demanding and in some cases required the intervention of the instructor to control and lead the discussion. Results also show that the lack of appropriate mathematical knowledge was sometimes an obstacle for the reinvention process, and the traditional view of mathematical learning a hindrance for accepting that an inquiry-oriented approach can fulfil the course outcomes.

IMPROVEMENT OF LEARNING OUTCOMES IN RESULT USING REALISTIC MATHEMATIC EDUCATION APPROACH IN BASIC SCHOOL

2018 ◽  
Vol 2 (2) ◽  
pp. 157
Author(s):  
Mimik Fernandes ◽  
Farida F ◽  
Yanti Fitria ◽  
Ahmad Fauzan ◽  
Nelvyarni Nelvyarni
Keyword(s):  
Mathematics Education ◽  
Action Research ◽  
Student Learning ◽  
Learning Outcomes ◽  
Student Learning Outcomes ◽  
Class Action ◽  
Realistic Mathematics Education ◽  
Realistic Mathematics ◽  
Multiplication Of Fractions ◽  
Mathematic Education

Based on experience and reflection multiplication of fractions learning at fifth class SDN 33 VII Koto Padang Pariaman district. Student learning outcomes is still low and the learning undertaken by teachers arenot using realistic problem to beginning of learning. So the author through this research trying to improve student learning outcomes in subjects multiplication of fractions. The purpose of this study was to describe the planning, implementation and learning outcomes. This research is action research (class action research), this study used a qualitative and quantitative approach. Learning is used by using the realistic mathematics education approach. After doing research hence an increase in student learning outcomes in multiplication of fractions lesson using realistic mathematics education approach. It can be seen, both from the ability of teachers in designing learning from 83% up to 94%, implementation of learning increased 94% from 77%, and learning outcomes increased to 86,87 from 74,04.

scholarly journals THE EFFECTIVENESS OF REALISTIC MATHEMATICS EDUCATION TO IMPROVE STUDENTS’ MULTI-REPRESENTATION ABILITY

2019 ◽  
Vol 8 (1) ◽  
pp. 21 ◽  
Author(s):  
Muhtarom Muhtarom ◽  
Nizaruddin Nizaruddin ◽  
Farida Nursyahidah ◽  
Nurina Happy
Keyword(s):  
Mathematics Education ◽  
Experimental Design ◽  
Learning Process ◽  
Realistic Mathematics Education ◽  
Student Responses ◽  
Realistic Mathematics ◽  
Quasi Experimental ◽  
And Control ◽  
Essay Test ◽  
Better Than

This research aimed to evaluate the effectiveness of Realistic Mathematics Education (RME) to improve students' multi-representation ability. A quasi-experimental design was used in this research. Sixty-four samples from the seventh-grade students of Junior School were randomly selected and divided into two classes: experimental class was treated using RME and control class was treated using conventional learning, with each class consisting of thirty-two students. The essay test was used to measure the multi-representation ability of students and the questionnaire was used to measure students' responses in RME learning. The data from the essay test were analyzed by N-Gain test and t-test in which normality and homogenity test were conducted previously, while the students' learning completeness and student responses were presented descriptive quantitative. The result of the research concluded that the multi-representation ability of students who get RME learning is better than the multi-representation ability in students who get conventional learning. 87.25% of students who get RME learning with the developed device have completed the KKM, and many students are very enthusiastic and interested in RME based learning, thus increasing their learning spirit in a learning process.

scholarly journals Mathematical Abstraction of Year 9 Students Using Realistic Mathematics Education Based on the Van Hiele Levels of Geometry

2019 ◽  
Vol 6 (1) ◽  
pp. 1-12
Author(s):  
Heris Hendriana ◽  
Nelly Fitriani
Keyword(s):  
High School Students ◽  
Mathematics Education ◽  
Traditional Learning ◽  
Realistic Mathematics Education ◽  
Reflective Abstraction ◽  
Van Hiele ◽  
Level Of Abstraction ◽  
Realistic Mathematics ◽  
Van Hiele Levels ◽  
Mathematical Abstraction

Previous research regarding abstraction has not discussed abstraction qualitatively based on van Hiele levels. Thus, it is necessary to study abstraction analysis based on van Hiele levels through Realistic Mathematics Education (RME) approach. The purpose of this research was to analyze mathematical abstraction based on van Hiele levels of geometry (VHLG) through RME and traditional learning approach reviewed from the levels of prior knowledge. This research employed a descriptive qualitative method involving Year 9 junior high school students as the subjects. The instruments were a mathematical abstraction test, van Hiele geometry test, and interview guidelines. The results of the high- and medium-ability students in the classroom using RME approach showed that VHLG was at the Deduction level and the abstraction ability was dominated by Empirical and Reflective Abstraction, whereas the low-ability students are at the level of Abstraction, they had imperfect Empirical and Reflective Abstraction. As for the high-ability students in the traditional learning classroom, the VHLG was at the level of Abstraction; their Reflective Abstraction was at the Representation level. While concerning the low- and medium-ability students, the VHLG was at the Analysis level; they mastered the Reflective Abstraction at the level of Recognition. This study indicates that the RME approach can trigger the development of mathematical abstraction, and accelerate the van Hiele levels of geometry progress.

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