Current Intensity Conductivity, Resistance and EMF in Electrical Circuit Systems Using Geogebra
DOI:
https://doi.org/10.15379/ijmst.v10i3.1904Keywords:
Electrical Circuit, Ohm's Laws, Electrical Resistance, Electromotive Force and Electrical Resistivity, Electric Conductivity.Abstract
The COVID 19 pandemic spread worldwide, having considerable consequences in education, interrupting learning and increasing the great challenge that exists in the educational culture of building learning and teaching experiences that impact the learning results of the students more educated, vulnerable and disadvantaged. To do this, it seeks to link theoretical learning with real life through the use of digital tools that solve problems in science learning. The method used is simulation, it has been chosen to simulate electrical conductivity, the flow of electrical charges from electrical resistance, resistivity and Ohm's law through GeoGebra and the link it has with JavaScript to perform a simulation totally dynamic. As a result, it was possible to build a simple and combined electrical circuit to obtain the passage of the flow of electrical charges through the circuit and the intensity of the electrical current; Combinations of resistivity and resistance connected to a power source that is fed with a potential difference. Demonstrating that the electric charges move generating the intensity of continuous electric current and that they vary due to the variation of the electric potential generated by the battery. Arriving at the discussion in front of other research works by simulation that with GeoGebra it is also possible to obtain good results, which contributes to understanding the difference in electrical potential through simulations that promote quality education, equitable and that produces relevant learning results to improve theoretical and practical knowledge that promotes sustainable development.