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Abstract(s)
Interdisciplinary education is an important aspect of critical thinking development in
engineering students, as they prepare for their careers. This study reports the didactic
experiences of the integration of remote experiment, simulations and calculations for
learning and teaching higher education mathematics. These are the first experiences of
the use of the remote electronics laboratory VISIR (Virtual Instrument Systems in Reality)
in a didactic implementation in the engineering subjects of Calculus and Statistics. The
strategy used in Calculus is to study a real electric circuit modeled by differential equations, covering 20% of the topics in the syllabus. In statistics, real experiments are
used to collect, organise and interpret data, covering around 40% of the syllabus. The
results show that students who benefited from this implementation not only feel more
engaged and interested in engineering mathematics, but are also likely to develop new
skills and achieve higher in mathematics subjects.