Flipping the classroom and turning the grades – a solution to teach unbeloved phase diagrams to engineering students
Author(s)
Pfennig, AnjaKeywords
Higher EducationLearning
Educational systems
Teaching
Phase diaram
Lecture films
Peer to peer
Inverted classroom
Flipped classroom
Blended learning
First years students
Full record
Show full item recordOnline Access
http://hdl.handle.net/10251/104035Abstract
[EN] Phase diagrams may simply be described as alloying maps in material science. However, the required thermodynamic background knowledge is high level and understanding the cooling procedure of metal melts as well as microstructure of metal alloys is challenging. Common teaching material presents results, but not how to get there and leaves frustrated first year engineering students behind. Knowledge on “how to read” phase diagrams is expected from teachers in advanced courses, but requirements are seldomly met by the students. Teaching phase diagrams in “inverted classroom”szenarios is a method to let the students study the science on their own and then take time to discuss their questions and do extended hands on lectures or exercises in class. Implementing the inverted classroom approach has been proven to be successful in terms of learing outcome, problem solving skills related to phase diagrams and in improving grades. Although the time of preparation is raised by a factor of approximately 4 for 2 four-hour classroom sessions, the positive and sustainable learning outcomes make it fun to teach and worth the effort.Pfennig, A. (2017). Flipping the classroom and turning the grades – a solution to teach unbeloved phase diagrams to engineering students. En Proceedings of the 3rd International Conference on Higher Education Advances. Editorial Universitat Politècnica de València. 73-81. doi:10.4995/HEAD17.2017.4935
OCS
73
81
Date
2017-06-26Type
info:eu-repo/semantics/bookPartIdentifier
oai:riunet.upv.es:10251/104035urn:isbn:9788490485903
http://hdl.handle.net/10251/104035
info:doi:10.4995/HEAD17.2017.4935