Evolutionäre Ursprünge des mathematischen Denkens

Krebs, Niklas

January 2008

Zugl.: Giessen, Univ., Diss., 2008

Basic knowledge and Basic Ability: A Model in Mathematics Teaching in China

Cheng, Chun Chor Litwin

12 April 2012

This paper aims to present a model of teaching and learning mathematics in China. The model is “Two Basic”, basic knowledge and basic ability. Also, the paper will analyze some of the background of the model and why it is efficient in mathematics education. The model is described by a framework of “slab” and based on a model of learning cycle, allow students to work with mathematical thinking. Though the model looks of demonstration and practice looks very traditional, the explanation behind allows us to understand why Chinese students achieved well in many international studies in mathematics. The innovation of the model is the teacher intervention during the learning process. Such interventions include repeated practice, and working on group of selected related questions so that abstraction of the learning process is possible and student can link up mathematical expression and process. Examples used in class are included and the model can be applied in teaching advanced mathematics, which is usually not the case in some many other existing theories or framework.

zwei Ausgangspunkte

mathematisches Denken

Lehrmodell

Two basics

mathematical thinking

teaching model

ddc:510

rvk:SD 2009

Proofs and "Puzzles"

Abramovitz, Buma, Berezina, Miryam, Berman, Abraham, Shvartsman, Ludmila

10 April 2012

It is well known that mathematics students have to be able to understand and prove theorems. From our experience we know that engineering students should also be able to do the same, since a good theoretical knowledge of mathematics is essential for solving practical problems and constructing models. Proving theorems gives students a much better understanding of the subject, and helps them to develop mathematical thinking. The proof of a theorem consists of a logical chain of steps. Students should understand the need and the legitimacy of every step. Moreover, they have to comprehend the reasoning behind the order of the chain’s steps. For our research students were provided with proofs whose steps were either written in a random order or had missing parts. Students were asked to solve the \"puzzle\" – find the correct logical chain or complete the proof. These \"puzzles\" were meant to discourage students from simply memorizing the proof of a theorem. By using our examples students were encouraged to think independently and came to improve their understanding of the subject.

Mathematisches Denken

Unterricht in Infinitesimalrechnung

Beweise

Sätze

Aufgaben

Mathematical Thinking

Calculus Teaching

Proofs

Theorems

Assignments

ddc:510

rvk:SD 2009

Basic knowledge and Basic Ability: A Model in Mathematics Teaching in China

Cheng, Chun Chor Litwin

12 April 2012

This paper aims to present a model of teaching and learning mathematics in China. The model is “Two Basic”, basic knowledge and basic ability. Also, the paper will analyze some of the background of the model and why it is efficient in mathematics education. The model is described by a framework of “slab” and based on a model of learning cycle, allow students to work with mathematical thinking. Though the model looks of demonstration and practice looks very traditional, the explanation behind allows us to understand why Chinese students achieved well in many international studies in mathematics. The innovation of the model is the teacher intervention during the learning process. Such interventions include repeated practice, and working on group of selected related questions so that abstraction of the learning process is possible and student can link up mathematical expression and process. Examples used in class are included and the model can be applied in teaching advanced mathematics, which is usually not the case in some many other existing theories or framework.

info:eu-repo/classification/ddc/510

ddc:510

Some Initiatives in Calculus Teaching

Abramovitz, Buma, Berezina, Miryam, Berman, Abraham, Shvartsman, Ludmila

10 April 2012

In our experience of teaching Calculus to engineering undergraduates we have had to grapple with many different problems. A major hurdle has been students’ inability to appreciate the importance of the theory. In their view the theoretical part of mathematics is separate from the computing part. In general, students also believe that they can pass their exams even though they do not have a real understanding of the theory behind the problems they are required to solve. In an effort to surmount these difficulties we tried to find ways to make students better understand the theoretical part of Calculus. This paper describes our experience of teaching Calculus. It reports on the continuation of our previous research.

Mathematisches Denken

SLM Methoden

Annahmen und Folgerungen aus einem Satz

Annahme formulieren

Aufgaben

Mathematical Thinking

SLM Method

Assumptions and Conclusions of a Theorem

Formulation of a Conjecture

Assignments

ddc:510

rvk:SD 2009

Proofs and "Puzzles"

Abramovitz, Buma, Berezina, Miryam, Berman, Abraham, Shvartsman, Ludmila

10 April 2012

It is well known that mathematics students have to be able to understand and prove theorems. From our experience we know that engineering students should also be able to do the same, since a good theoretical knowledge of mathematics is essential for solving practical problems and constructing models. Proving theorems gives students a much better understanding of the subject, and helps them to develop mathematical thinking. The proof of a theorem consists of a logical chain of steps. Students should understand the need and the legitimacy of every step. Moreover, they have to comprehend the reasoning behind the order of the chain’s steps. For our research students were provided with proofs whose steps were either written in a random order or had missing parts. Students were asked to solve the \"puzzle\" – find the correct logical chain or complete the proof. These \"puzzles\" were meant to discourage students from simply memorizing the proof of a theorem. By using our examples students were encouraged to think independently and came to improve their understanding of the subject.

info:eu-repo/classification/ddc/510

ddc:510

Some Initiatives in Calculus Teaching

Abramovitz, Buma, Berezina, Miryam, Berman, Abraham, Shvartsman, Ludmila

10 April 2012

In our experience of teaching Calculus to engineering undergraduates we have had to grapple with many different problems. A major hurdle has been students’ inability to appreciate the importance of the theory. In their view the theoretical part of mathematics is separate from the computing part. In general, students also believe that they can pass their exams even though they do not have a real understanding of the theory behind the problems they are required to solve. In an effort to surmount these difficulties we tried to find ways to make students better understand the theoretical part of Calculus. This paper describes our experience of teaching Calculus. It reports on the continuation of our previous research.

info:eu-repo/classification/ddc/510

ddc:510