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Direct linkFazio, Claudio; Guastella, Ivan; Tarantino, Giovanni – European Journal of Physics, 2009
A problem-based approach to the teaching of mechanical wave propagation, focused on observation and measurement of wave properties in solids and on modelling of these properties, is presented. In particular, some experimental results, originally aimed at measuring the propagation speed of sound waves in metallic rods, are used in order to deepen…
Descriptors: Problem Based Learning, Science Instruction, Scientific Principles, Mechanics (Physics)
Giza, Brian – Science Scope, 2007
When students design and build their own versions of instruments, they appreciate them more--and are more likely to appreciate how experimentation plays a critical role in explaining the world around them (NRC 1999). In this activity, students learn how science is done by becoming active participants. They use free lenses to build simple…
Descriptors: Teaching Methods, Problem Based Learning, Laboratory Equipment, Science Experiments
Portable Technologies: Science Learning in Context. Innovations in Science Education and Technology.
Tinker, Robert F., Ed.; Krajcik, Joseph S., Ed. – 2001
Education has traditionally studied the world by bringing it into the classroom. This method can result in situated learning that appears to students to have no relevance outside the classroom. Students acquire inert, decontextualized knowledge that they cannot apply to real problems. The obvious solution to this shortcoming is to reverse the…
Descriptors: Educational Technology, Elementary Secondary Education, Graphing Calculators, Laboratory Equipment
