Comparison of Mathematics and Physics Education II (eBook, PDF)
Examples of Interdisciplinary Teaching at School
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Comparison of Mathematics and Physics Education II (eBook, PDF)
Examples of Interdisciplinary Teaching at School
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Interdisciplinary teaching is considered as one of the main goals of education worldwide. At the same time, it poses an immense challenge to teachers who have been trained in only one of the combines subjects. This is true even for closely related disciplines such as mathematics and physics. In this volume, practice-oriented educational comparisons are made across various topics that are highly relevant in both subjects. Furthermore, practical examples are presented in the form of lesson plans in which exemplary implementation in class is presented, considering both educational perspectives.
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Interdisciplinary teaching is considered as one of the main goals of education worldwide. At the same time, it poses an immense challenge to teachers who have been trained in only one of the combines subjects. This is true even for closely related disciplines such as mathematics and physics. In this volume, practice-oriented educational comparisons are made across various topics that are highly relevant in both subjects. Furthermore, practical examples are presented in the form of lesson plans in which exemplary implementation in class is presented, considering both educational perspectives.
Produktdetails
- Produktdetails
- Verlag: Springer Fachmedien Wiesbaden
- Erscheinungstermin: 1. Juli 2022
- Englisch
- ISBN-13: 9783658364151
- Artikelnr.: 64266554
- Verlag: Springer Fachmedien Wiesbaden
- Erscheinungstermin: 1. Juli 2022
- Englisch
- ISBN-13: 9783658364151
- Artikelnr.: 64266554
Frederik Dilling and Dr. Simon Friedrich Kraus are currently working as researchers at the Mathematics and Physics Departments at the University of Siegen, Germany. Their research focuses on comparative approaches regarding mathematics and physics education in order to explore differences and synergies. They are also interested in the question of cultural influences on the learning of mathematics and physics.
Introductory Remarks and Concept of the Book.- Historical Relations of Mathematics and Physics. – Educational use of Ludwig’s methodology using the example of the lens equation.- Equations as a tool for hypothesis formulation in physics.- Comparison: Numbers, Quantities and Units.- Lesson Plan: Measuring length.- Comparison: Equations in Mathematics and Physics Education.- Lesson Plan: Trigonometric equations.- Comparison: Functions in Mathematics and Physics Education.- Lesson Plan: Quadratic functions—graphs and applications.- Lesson Plan: Projectile motion.- Lesson Plan: The dependence of resistance on temperature.- Lesson Plan: Simple Harmonic Oscillation.- Comparison: Vectors in Mathematics and Physics Education.- Lesson Plan: Combining forces.- Lesson Plan: Basic concepts related to vectors.- Comparison: Differential Calculus Through Applications.- Lesson Plan: Differential Calculus Through Applications.- Lesson Plan: Capacitor charge and discharge process. Capacitor energy.-Comparison: Stochastics with a focus on probability theory.- Lesson Plan: Probabilities and Statistics.- Comparison: Light Rays and the Intercept Theorem in Mathematics and Physics Education.- Lesson Plan: Straight lines and conic sections.
Introductory Remarks and Concept of the Book.- Historical Relations of Mathematics and Physics. - Educational use of Ludwig's methodology using the example of the lens equation.- Equations as a tool for hypothesis formulation in physics.- Comparison: Numbers, Quantities and Units.- Lesson Plan: Measuring length.- Comparison: Equations in Mathematics and Physics Education.- Lesson Plan: Trigonometric equations.- Comparison: Functions in Mathematics and Physics Education.- Lesson Plan: Quadratic functions-graphs and applications.- Lesson Plan: Projectile motion.- Lesson Plan: The dependence of resistance on temperature.- Lesson Plan: Simple Harmonic Oscillation.- Comparison: Vectors in Mathematics and Physics Education.- Lesson Plan: Combining forces.- Lesson Plan: Basic concepts related to vectors.- Comparison: Differential Calculus Through Applications.- Lesson Plan: Differential Calculus Through Applications.- Lesson Plan: Capacitor charge and discharge process. Capacitor energy.-Comparison: Stochastics with a focus on probability theory.- Lesson Plan: Probabilities and Statistics.- Comparison: Light Rays and the Intercept Theorem in Mathematics and Physics Education.- Lesson Plan: Straight lines and conic sections.
Introductory Remarks and Concept of the Book.- Historical Relations of Mathematics and Physics. – Educational use of Ludwig’s methodology using the example of the lens equation.- Equations as a tool for hypothesis formulation in physics.- Comparison: Numbers, Quantities and Units.- Lesson Plan: Measuring length.- Comparison: Equations in Mathematics and Physics Education.- Lesson Plan: Trigonometric equations.- Comparison: Functions in Mathematics and Physics Education.- Lesson Plan: Quadratic functions—graphs and applications.- Lesson Plan: Projectile motion.- Lesson Plan: The dependence of resistance on temperature.- Lesson Plan: Simple Harmonic Oscillation.- Comparison: Vectors in Mathematics and Physics Education.- Lesson Plan: Combining forces.- Lesson Plan: Basic concepts related to vectors.- Comparison: Differential Calculus Through Applications.- Lesson Plan: Differential Calculus Through Applications.- Lesson Plan: Capacitor charge and discharge process. Capacitor energy.-Comparison: Stochastics with a focus on probability theory.- Lesson Plan: Probabilities and Statistics.- Comparison: Light Rays and the Intercept Theorem in Mathematics and Physics Education.- Lesson Plan: Straight lines and conic sections.
Introductory Remarks and Concept of the Book.- Historical Relations of Mathematics and Physics. - Educational use of Ludwig's methodology using the example of the lens equation.- Equations as a tool for hypothesis formulation in physics.- Comparison: Numbers, Quantities and Units.- Lesson Plan: Measuring length.- Comparison: Equations in Mathematics and Physics Education.- Lesson Plan: Trigonometric equations.- Comparison: Functions in Mathematics and Physics Education.- Lesson Plan: Quadratic functions-graphs and applications.- Lesson Plan: Projectile motion.- Lesson Plan: The dependence of resistance on temperature.- Lesson Plan: Simple Harmonic Oscillation.- Comparison: Vectors in Mathematics and Physics Education.- Lesson Plan: Combining forces.- Lesson Plan: Basic concepts related to vectors.- Comparison: Differential Calculus Through Applications.- Lesson Plan: Differential Calculus Through Applications.- Lesson Plan: Capacitor charge and discharge process. Capacitor energy.-Comparison: Stochastics with a focus on probability theory.- Lesson Plan: Probabilities and Statistics.- Comparison: Light Rays and the Intercept Theorem in Mathematics and Physics Education.- Lesson Plan: Straight lines and conic sections.