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DBpiaWhat is the "new paradigm"? It is impossible express it in one or two words. but if one had to; the closest might be the "holistic approach". The expression can be justified by the fact that the conclusions above lead to a greater intermixing of mathe...
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RISS 인기검색어
TEACHING APPLIED MATHEMATICS FOR ENGINEERS = A NEW TEACHING PARADIGM BASED ON INDUSTRIAL MATHEMATICS
한글로보기https://www.riss.kr/link?id=A76177333
-
저자
Veli-Matti Taavitsainen (EVTEX Univ.Flnland)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2007
-
작성언어
English
-
등재정보
KCI우수등재,ESCI
-
자료형태
학술저널
-
수록면
31-40(10쪽)
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
What is the "new paradigm"? It is impossible express it in one or two words. but if one had to; the closest might be the "holistic approach". The expression can be justified by the fact that the conclusions above lead to a greater intermixing of mathematics with engineering and natural sciences subjects. typically expressed in the form of examples of simplified real problems. They also lead to a greater intermixing of subjects within mathematics so that the courses should have less separation e.g. between symbolic and numerical mathematics.
The conclusions also lead to the spreading the mathematics courses throughout all study years, not just the first two years. Of course, this should be done with great care in order to guarantee studies that are logically linked together.
The new paradigm also means that the needs arising from industrial mathematics must be taken into account in the contents of engineering mathematics courses. Such topics arc e.g. multivariate methods, statistics and use or mathematical software.
What are we expected to gain from the paradigm shift? The primary benefit should be in obtaining more productive engineers equipped with a better degree of mathematical preparedness for engineering problems. But in addition, it should also promote more intensive use of applied mathematics and easier communication with professional mathematicians, often needed in complicated industrial problems.
Finally, it can be noted that the new paradigm is in harmony with the basic ideas of the CDIO (Conceive - Design - Implement - Operate) initiative for producing the next generation of engineers [1]. New ideas for engineering education can be found also in the homepage of SEFI (European Society for Engineering Education) [2].
The conclusions also lead to the spreading the mathematics courses throughout all study years, not just the first two years. Of course, this should be done with great care in order to guarantee studies that are logically linked together.
The new paradigm also means that the needs arising from industrial mathematics must be taken into account in the contents of engineering mathematics courses. Such topics arc e.g. multivariate methods, statistics and use or mathematical software.
What are we expected to gain from the paradigm shift? The primary benefit should be in obtaining more productive engineers equipped with a better degree of mathematical preparedness for engineering problems. But in addition, it should also promote more intensive use of applied mathematics and easier communication with professional mathematicians, often needed in complicated industrial problems.
Finally, it can be noted that the new paradigm is in harmony with the basic ideas of the CDIO (Conceive - Design - Implement - Operate) initiative for producing the next generation of engineers [1]. New ideas for engineering education can be found also in the homepage of SEFI (European Society for Engineering Education) [2].
What is the "new paradigm"? It is impossible express it in one or two words. but if one had to; the closest might be the "holistic approach". The expression can be justified by the fact that the conclusions above lead to a greater intermixing of mathematics with engineering and natural sciences subjects. typically expressed in the form of examples of simplified real problems. They also lead to a greater intermixing of subjects within mathematics so that the courses should have less separation e.g. between symbolic and numerical mathematics.
The conclusions also lead to the spreading the mathematics courses throughout all study years, not just the first two years. Of course, this should be done with great care in order to guarantee studies that are logically linked together.
The new paradigm also means that the needs arising from industrial mathematics must be taken into account in the contents of engineering mathematics courses. Such topics arc e.g. multivariate methods, statistics and use or mathematical software.
What are we expected to gain from the paradigm shift? The primary benefit should be in obtaining more productive engineers equipped with a better degree of mathematical preparedness for engineering problems. But in addition, it should also promote more intensive use of applied mathematics and easier communication with professional mathematicians, often needed in complicated industrial problems.
Finally, it can be noted that the new paradigm is in harmony with the basic ideas of the CDIO (Conceive - Design - Implement - Operate) initiative for producing the next generation of engineers [1]. New ideas for engineering education can be found also in the homepage of SEFI (European Society for Engineering Education) [2].
목차 (Table of Contents)
- INTRODUCTION
- OBJECTIVES OF ENGINEERING MATHEMATICS
- THE PROBLEMS IN THE TRADITIONAL WAY OF TEACHING MATHEMATICS FOR ENGINEERS
- THE NATURE OF INDUSTRIAL ENGINEERING MATHEMATICS
- ENHANCING MOTIVATION
- INTRODUCTION
- OBJECTIVES OF ENGINEERING MATHEMATICS
- THE PROBLEMS IN THE TRADITIONAL WAY OF TEACHING MATHEMATICS FOR ENGINEERS
- THE NATURE OF INDUSTRIAL ENGINEERING MATHEMATICS
- ENHANCING MOTIVATION
- ENHANCING UNDERSTANDING
- SUMMARY
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