Implementation of STEM learning technology in the process of calibrating an NTC thermistor and developing an electronic thermometer based on it

The rapid development of information technology, robotics, nanotechnology, and biotechnology requires modern education to train highly qualified specialists who can support it, preparing students and students for producing creative work. The need to reform education to modern challenges is an urgent problem today. It is predicted that the most popular professions soon will be programmers, engineers, roboticists, nanotechnologists, biotechnologists, IT specialists, etc. STEM education can combine these areas into a complex, which can be implemented in different age groups. One example of the use of STEM technologies is the development and implementation of scientific and technical projects using the Arduino hardware and software complex. With the help of STEM technologies, a method for calibrating an NTC thermistor in the operating temperature range is proposed and a working model of an electronic thermometer is presented using the example of an NTC thermistor and an Arduino microcontroller.

[1]  M. Mintii Selection of pedagogical conditions for training STEM teachers to use augmented reality technologies in their work , 2023, Educational Dimension.

[2]  I. Muzyka,et al.  Educational direction of STEM in the system of realization of blended teaching of physics , 2022, Educational Technology Quarterly.

[3]  Natalia S. Lukychova,et al.  ICT and current trends as a path to STEM education: implementation and prospects , 2022, CTE.

[4]  V. Burak,et al.  Вимірювання прискорення при рівноприскореному русі в умовах диференціації навчання , 2021, Educational Dimension.

[5]  N. Morze,et al.  Use of digital tools as a component of STEM education ecosystem , 2021, Educational Technology Quarterly.

[6]  O. Pylypenko Development of critical thinking as a means of forming STEM competencies , 2020, Освітній вимір.

[7]  Vytaly M. Zadorozhnyi,et al.  The use of Arduino software and hardware in a school physical experiment , 2020 .

[8]  V. Osadchyi,et al.  Cloud technologies for STEM education , 2020, CTE.

[9]  Yevhenii B. Shapovalov,et al.  Analyzing of main trends of STEM education in Ukraine using stemua.science statistics , 2020, CTE.

[10]  O. Strutynska,et al.  Teaching of the Educational Robotics in Ukrainian Schools: the Ways of Implementation , 2019, Engineering and Educational Technologies.

[11]  Dimitris Alimisis,et al.  Teacher Training in Educational Robotics: The ROBOESL Project Paradigm , 2018, Technology, Knowledge and Learning.

[12]  I. S. Mintii,et al.  Augmented Reality: Ukrainian Present Business and Future Education , 2018, AREdu.

[13]  Lucio Negrini,et al.  Teacher Training in Educational Robotics - An Experience in Southern Switzerland: The PReSO Project , 2018, RiE.

[14]  Pavlo Merzlykin,et al.  Scheduling Algorithms Exploring via Robotics Learning , 2018, ICTERI Workshops.

[15]  Amy Eguchi,et al.  Educational Robotics as a Learning Tool for Promoting Rich Environments for Active Learning (REALs) , 2015 .

[16]  M. A. Yousuf,et al.  Robots in Education , 2009, Encyclopedia of Artificial Intelligence.