Reproducción de un ambiente de innovación en el salón de clase. Una estrategia para promover la creatividad en la educación en Ingeniería Química  <span class="so-article-trans-title" dir="auto"> Translated title: Reproducing an innovation environment in the classroom. An strategy to promote creativity in Chemical Engineering education </span>

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Abstract

El proceso enseñanza-aprendizaje en la educación universitaria tradicional utiliza estrategias que colocan al estudiante como un receptor de información transmitida por el profesor, la cual es conceptualizada como conocimiento. La realidad en que vivimos requiere generar soluciones de formación que permitan satisfacer las necesidades de los individuos en el desarrollo de competencias o saber-hacer, para dar respuestas a la sociedad, para formar individuos capaces de aprender a aprender y aprender a transferir, preparados para buscar continuamente el conocimiento y capacitados para crear e innovar. En este trabajo se presentan los resultados de la aplicación de la estrategia «Reproducción de un Ambiente de Innovación en el Salón de clase» (RAIS) en asignaturas del currículo de Ingeniería Química, de la Universidad de los Andes, Mérida-Venezuela. Esta es una estrategia de enseñanza-aprendizaje y evaluación donde el estudiante es copartícipe de la construcción y generación del conocimiento, desarrollando las competencias propuestas en la asignatura a través de la ejecución de un producto. La estrategia RAIS fue aplicada en las asignaturas Fisicoquímica para Ingenieros Químicos, Química Industrial I y Laboratorio de Química Industrial, donde los estudiantes obtuvieron con éxito un producto, utilizando el saber-hacer en el área de cada curso. Esta estrategia generó un incremento en la motivación con respecto a otros cursos basados en clases magistrales, y el desarrollo de la capacidad de desenvolverse y encontrar soluciones en ambientes de trabajo con grupos multidisciplinarios. Es importante resaltar que más de un 80% de los estudiantes indicó que la estrategia RAIS contribuye a su desarrollo personal y formación para realizar investigación aplicada.

Translated abstract

The teaching-learning process in traditional college education uses strategies that place the student as a recipient of information transmitted by the teacher, which is conceptualized as knowledge. The reality in which we live requires generating training solutions to meet the needs of individuals in the development of skills or know-how to respond to society, to form individuals capable of learning to learn and learning to transfer, prepared to continually seek knowledge and able to create and innovate. In this paper, the results of the implementation of the strategy ‘Reproducing an Innovation Environment in the Classroom’ (RAIS) in courses of the Chemical Engineering curriculum, in Universidad de Los Andes, Mérida-Venezuela are presented. This is a strategy of teaching, learning and assessment in which the student is a co-participant in the construction and generation of knowledge, developing the skills proposed in the course by the execution of a product. RAIS strategy was applied in the courses of Physical Chemistry for Chemical Engineers, Industrial Chemistry I and Laboratory of Industrial Chemistry, where students obtained a finished product using the know-how in the area of each course. This strategy led to an increase in motivation over other courses based on lectures, and the development of the ability to function and find solutions in multidisciplinary groups workplaces. It is important to note that more than 80% of students said the RAIS strategy contributes to their personal development and training for applied research.

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Author and article information

Journal

Journal ID (publisher-id): eq

Title: Educación química

Abbreviated Title: Educ. quím

Publisher: Universidad Nacional Autónoma de México, Facultad de Química (Ciudad de México, Ciudad de México, Mexico )

ISSN (Print): 0187-893X

Publication date (Print and electronic): October 2016

Volume: 27

Issue: 4

Pages: 249-256

Affiliations

[1] orgnameUniversidad de Los Andes orgdiv1Facultad de Ingeniería Venezuela

Article

Publisher ID: S0187-893X2016000400249 Publisher ID: S0187-893X(16)02700400249

DOI: 10.1016/j.eq.2016.07.001

SO-VID: 495c6a48-a70e-49bb-9a48-02d894ad509e

License:

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

History

Date received : 10 March 2016

Date accepted : 08 July 2016

Page count

Figures: 0, Tables: 0, Equations: 0, References: 19, Pages: 8

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SciELO Mexico

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