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Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningfagfællebedømt

Standard

Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning. / Abou-Hayt, Imad Fawzi; Søndergaard, Bettina Dahl; Rump, Camilla Østerberg.

Proceedings of the 47th Sefi Annual Conference 2019, 2019. SEFI: European Association for Engineering Education, 2019. s. 58-69.

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningfagfællebedømt

Harvard

Abou-Hayt, IF, Søndergaard, BD & Rump, CØ 2019, Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning. i Proceedings of the 47th Sefi Annual Conference 2019, 2019. SEFI: European Association for Engineering Education, s. 58-69, SEFI Annual Conference: European Society for Engineering Education. , Budapest, Ungarn, 16/09/2019.

APA

Abou-Hayt, I. F., Søndergaard, B. D., & Rump, C. Ø. (2019). Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning. I Proceedings of the 47th Sefi Annual Conference 2019, 2019 (s. 58-69). SEFI: European Association for Engineering Education.

Vancouver

Abou-Hayt IF, Søndergaard BD, Rump CØ. Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning. I Proceedings of the 47th Sefi Annual Conference 2019, 2019. SEFI: European Association for Engineering Education. 2019. s. 58-69

Author

Abou-Hayt, Imad Fawzi ; Søndergaard, Bettina Dahl ; Rump, Camilla Østerberg. / Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning. Proceedings of the 47th Sefi Annual Conference 2019, 2019. SEFI: European Association for Engineering Education, 2019. s. 58-69

Bibtex

@inproceedings{5dfeb5de35bf455c92be22be7824f95f,
title = "Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning",
abstract = "The concept of limit plays a central role in the foundation of modern mathematical analysis. However, the concept itself plays a minor role in both upper secondary and undergraduate engineering education, leaving the students with many misconceptions about the concept, resulting in poor performance in calculus and calculus-based engineering courses. Most emphasis in teaching has been on how to calculate the limit instead of on understanding its definition. In this paper, we will use the frameworks of Brousseau’s theory of didactic situations (TDS) and Problem-Based Learning (PBL) to suggest a method to teach engineering students the concept of limit and explain its formal definition. The purpose is to enable the students to generate a precise definition of limit of a function that captures the intended meaning of the conventional ε-δ definition. Moreover, we will argue that TDS bears many similarities with PBL, as both frameworks require that the students act and engage in non-routine and realistic problems.",
author = "Abou-Hayt, {Imad Fawzi} and S{\o}ndergaard, {Bettina Dahl} and Rump, {Camilla {\O}sterberg}",
year = "2019",
language = "English",
isbn = "9782873520182",
pages = "58--69",
booktitle = "Proceedings of the 47th Sefi Annual Conference 2019, 2019",
publisher = "SEFI: European Association for Engineering Education",
note = "SEFI Annual Conference: European Society for Engineering Education. ; Conference date: 16-09-2019 Through 19-09-2019",

}

RIS

TY - GEN

T1 - Teaching the limits of functions using The Theory of Didactical Situations and Problem-Based Learning

AU - Abou-Hayt, Imad Fawzi

AU - Søndergaard, Bettina Dahl

AU - Rump, Camilla Østerberg

PY - 2019

Y1 - 2019

N2 - The concept of limit plays a central role in the foundation of modern mathematical analysis. However, the concept itself plays a minor role in both upper secondary and undergraduate engineering education, leaving the students with many misconceptions about the concept, resulting in poor performance in calculus and calculus-based engineering courses. Most emphasis in teaching has been on how to calculate the limit instead of on understanding its definition. In this paper, we will use the frameworks of Brousseau’s theory of didactic situations (TDS) and Problem-Based Learning (PBL) to suggest a method to teach engineering students the concept of limit and explain its formal definition. The purpose is to enable the students to generate a precise definition of limit of a function that captures the intended meaning of the conventional ε-δ definition. Moreover, we will argue that TDS bears many similarities with PBL, as both frameworks require that the students act and engage in non-routine and realistic problems.

AB - The concept of limit plays a central role in the foundation of modern mathematical analysis. However, the concept itself plays a minor role in both upper secondary and undergraduate engineering education, leaving the students with many misconceptions about the concept, resulting in poor performance in calculus and calculus-based engineering courses. Most emphasis in teaching has been on how to calculate the limit instead of on understanding its definition. In this paper, we will use the frameworks of Brousseau’s theory of didactic situations (TDS) and Problem-Based Learning (PBL) to suggest a method to teach engineering students the concept of limit and explain its formal definition. The purpose is to enable the students to generate a precise definition of limit of a function that captures the intended meaning of the conventional ε-δ definition. Moreover, we will argue that TDS bears many similarities with PBL, as both frameworks require that the students act and engage in non-routine and realistic problems.

M3 - Article in proceedings

SN - 9782873520182

SP - 58

EP - 69

BT - Proceedings of the 47th Sefi Annual Conference 2019, 2019

PB - SEFI: European Association for Engineering Education

T2 - SEFI Annual Conference: European Society for Engineering Education.

Y2 - 16 September 2019 through 19 September 2019

ER -

ID: 237704065