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Showing 1 - 3 of 3 matches in All Departments
Physics, Epistemology, and Teaching: Generalizations to Be Drawn from Results of Research on Teaching and Learning (A. Arons). Wrong Experiments as Didactical Tools (G. Cortini). Do We Need an Agreement with Mathematicians? (C. Bernardini). Modeling Software for Learning and Doing Physics (D. Hestenes). Contents of Physics: Essential Elements, Common Views (L. Viennot). Should Physicists Preach Wat They Practice? Generic Mental Modeling in Doing and Learning Physics (N.J. Nersessian). From Language to Concepts Appropriation in Physics: Case Studies of Some Difficulties (J. Grea, J. Viard). Epistemology and Physics Education (M. Cini). Physics, Philosophy and Education (A. Cromer). What Do Epistemology and Ontology Have to Offer in Considering Progression in Physics Education (M. Monk). Physics Laboratory, Yesterday, Today, and... (G. Bonera et al.). Classical Physics: The Grand Laws of Scale: Their Place in Science Education (D. Hawkins). Conceptual Dynamics: Changing Students Views of Force and Motion (R.K. Thornton). Force versus Motion Conceptions: A Phenomenological Analysis of Physics Students Questionnaires (P. Guidoni et al.). The Language of Physics: A Case Study of the Concept of Force in Primary Education (P. Kokkotas et al.). A Modern Understanding of Origins of Students' Difficulties to Operate with the Weight Concepts (I. Galili). Modeling in Physics Education: A Computerbased Learning Environment in Newtonian Mechanics (G. Adaloro et al.). Words and Their Meaning in Teaching Thermodynamics (J. Ferbar). The Need of Changes in Elementary School Teachers' Training: The Case of the Energy Concept as an Example (R. Trumper). Modern Physics: The Big Game of Energy and Entropy (F. Wanderlingh). A Critical Analysis of the Language of Modern Physics (F. Hermann). Complexity in Biology: The Point of View of a Physicist (G. Parisi). Can We Understand Intelligent Behavior by Methodsof Theoretical Physics? (F. Guerra). The Struggle against Convention: Teaching Qualitativebased Introductory Modern Physics (C.J. Linder). Students' Conceptions of Quantum Physics (A. Mashaddi). A Fundamental Concept in Quantum Theory: The Superposition Principle (G.C. Ghilardi et al.). Special and General Relativity and Cosmology for Teachers and High School Students (K>H. Lotze). Looking at the Second Law of Thermodynamics through the Eyes of Maxwell's Demon (D. Malizia, C. Tarsitani). From Effective Mass to Negative Mass (Z. Mulaj eta l.). How to Introduce Modern Physics Topics in High School Curriculum? (I. Costa, M. Da Silva Santos). Special Issues: Physical Laws Revisited (C. Agnes). Qualitative Methods in Problemsolving: The Evaluation of the Orders of Magnitude (D. Pescetti). What Should an Ordinary Man Know about Physics? (A. Aparo). University Education in Physics and the Needs of Industry (S.J. Joshua). Mediation by Text and Teacher's Prepresentations in Physics Education (M.J.P.M. de Almeida). Scientific Knowledge and Teaching Ability (A. Villani, J.L.A. Pacca). Teaching Physics and Biophysics for Veterinary Medicine Students and Specialists (D. Popovic, G. Djuric). Round Table on 'Perspective and Development of Research in Physics Education': Introduction (J. Grea et al.). Concluding Remarks (M. Vicentini). Index.
Enrico Fermia (TM)s scientific work, noted for its originality and breadth, has had lasting consequences throughout modern science. Written by close colleagues as well as scientists whose fields were profoundly influenced by Fermi, the papers collected here constitute a tribute to him and his scientific legacy. They were commissioned on the occasion of his 100th birthday by the Italian Physical Society and confirm that Fermi was a rare combination of theorist, experimentalist, teacher, and inspiring colleague. The book is organized into three parts: three biographical overviews by close colleagues, replete with personal insights; fourteen analyses of Fermi's impact by specialists in their fields, spanning physics, chemistry, mathematics, and engineering; and a year-by-year chronology of Fermia (TM)s scientific endeavors. Written for a general scientific audience, Enrico Fermi: His Work and Legacy offers a highly readable source on the life of one of the 20th century's most distinguished scientists and a must for everybody interested in the history of modern science.
Enrico Fermi s scientific work, noted for its originality and breadth, has had lasting consequences throughout modern science. Written by close colleagues as well as scientists whose fields were profoundly influenced by Fermi, the papers collected here constitute a tribute to him and his scientific legacy. They were commissioned on the occasion of his 100th birthday by the Italian Physical Society and confirm that Fermi was a rare combination of theorist, experimentalist, teacher, and inspiring colleague. The book is organized into three parts: three biographical overviews by close colleagues, replete with personal insights; fourteen analyses of Fermi's impact by specialists in their fields, spanning physics, chemistry, mathematics, and engineering; and a year-by-year chronology of Fermi s scientific endeavors. Written for a general scientific audience, Enrico Fermi: His Work and Legacy offers a highly readable source on the life of one of the 20th century's most distinguished scientists and a must for everybody interested in the history of modern science."
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