Using Flipped classroom at University to improve the chemistry learning.

The main objective of this paper was to improve the learning of Chemistry subject using Flipped classroom, because it makes class time more engaging. The lecture portion of General Chemistry courses in engineers degrees have been pushed outside the classroom using pre recording technology and steaming delivery of content, to make classes more interactive and participative. The Flipped classroom model has become one of the main topics in the higher education space in recent years thanks to improvements in technology. This year, the Flipped classroom model with the chemistry students at Malaga State University has been begun experimenting with. Statistical significance of the data has shown, and proved with, that implementing the Flipped classroom model could not only benefit professors, but it could also help us adapt the classes to the various learning styles that exist among the students. The study shows the results of surveys about student attitudes towards aspects of flipping the classroom.I Plan Propio Integral de Docencia, Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

A Flipped Classroom Redesign in General Chemistry

The flipped classroom continues to attract significant attention in higher education. Building upon our recent parallel controlled study of the flipped classroom in a second-term general chemistry course (J. Chem. Educ., 2016, 93, 13–23), here we report on a redesign of the flipped course aimed at scaling up total enrollment while keeping discussion sizes small (i.e.,students), and maintaining equivalent contact hour load for faculty and workload for students. To that end, the course format featured lecture contact pushed outside of the classroom in the form of video lectures (mean duration 13 minutes) paired with online homework sets, and three parallel weekly one-hour discussion sections were held in adjoining lab rooms immediately prior to the three-hour laboratory session. As in our previous design, the discussion sections were led by teaching assistants; however, the weekly discussion meeting was shortened from 75 minutes to 50 minutes, and the primary instructor “floated” between the three parallel sessions. Two such sessions were held each week, affording a possible enrollment of 144; initial enrollment was 141, with students self-selecting into the course. We examine student performance in and satisfaction with the course using: (1) a pre-test/post-test design based on the paired questions American Chemical Society (ACS) first-term and second-term exams, (2) data on DFW (D, F, withdrawal) rates, and (3) student evaluations

Looking for students' enthusiasm: flipped classroom

The “flipped classroom” is a pedagogical model that consists of putting certain learning processes outside the classroom so that the teacher can devote more class time to students’ acquisition of practical skills, for example. In this way, the teacher is not limited to the transmission of course content, but in addition assumes the role of a mediator in the cognitive process, allowing students to actively construct their own knowledge. In this role, the teacher’s main task is to encourage students to become independent learners. This paper describes the implementation and initial results of the application of the flipped classroom in higher education. This study is part of a larger research project to improve our students’ motivation through the use of the flipped learning. The sample consisted of about 3000 students taking 17 different subjects, in Management and Administration Business, Finance and Accounting, Marketing and Market Research, and Chemistry, at the University of Málaga, and in Accounting and Administration, Business Communication and Marketing at the Polytechnic of Porto. According to our results, students’ motivation and class attendance increased with the application of this model; a comparison of the final exam results from two years with traditional classes and from two years with flipped learning shows that the proportion of students failing the exam decreased, which confirms that the use of this pedagogic model improves student learning.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. This project is financed by Educational Innovation Projects 2017-2019 from Malaga University

The Flipped Classroom and its Impact on Student Engagement and Academic Performance in a Culinary Arts, Career and Technical Education Program

The purpose of this study was to gather evidence from a CTE culinary arts program to determine if students perform better academically and are more engaged in the flipped classroom using digital technology, than the traditional classroom. The study included 24 participants in a post-secondary, CTE culinary arts program who were divided into two groups of 12: a traditional, teacher-centered group and a flipped, student-centered group. Utilizing action-based research, surveys, journals, and an engagement matrix were created and used. Although not statistically significant, student grades in the flipped classroom were nearly 4% higher than those in the traditional classroom and were consistently higher throughout the semester. This study helps establish a foundation of evidence that student engagement and academic success improve in the flipped classroom for culinary arts CTE students

Flipping the classroom : a design study of the adoption and adaption of new pedagogy in a higher education context

The Flipped Classroom idea is simple: the students consume lecture content as videos or audios individually in their own time, freeing­-up lecture time for more interactive and constructive pedagogies, with the students being more engaged and active in class. Does this fit with the Higher Education context? Specifically anywhere in Warwick (a research-intensive university in the English Midlands)? This paper reports on the initial phase of a Design Thinking investigation inspired by the basic Flipped Classroom idea, looking for ways in which it may be adopted and/or adapted to fit into existing or changing HE practices, in specific well defined contexts. In doing so, important lessons are learned concerning the diversity and specificity of the disciplines that are considered (english literature, medicine, psychology, teacher training, history, chemistry). The cases presented in the 7 design studies each illustrates how an academic teacher has designed new practice to address problems encountered in teaching, by applying pedagogy that stands out from the everyday pedagogies of their disciplines. They show how designerly practitioners can reflect upon teaching, identify "threshold concepts" and areas of difficulty (or even liminality), and respond with additional design and development work

“Just Don’t Bore Us To Death”: Seventh Graders’ Perceptions of Flipping a Technology-Mediated English Language Arts Unit

This mixed methods study aimed to assess student engagement during the flipped model of instruction in two seventh-grade English language arts (ELA) classrooms. Implementation of the flipped model required students (n=183) and teachers (n=2) to use digital technology via a website and teacher-made videos. It compared student perceptions during a flipped unit to those same students’ perceptions during a traditionally taught unit. A hybrid embedded design and case study interviews were used to assess students’ cognitive, emotional, and behavioral engagement. Data analysis revealed that overall student engagement decreased in the flipped unit and that students were divided in their reactions to the flipped method with one student poignantly writing on the survey, “Just don’t bore us to death.” This work is significant in that it is among the first to examine whether course content matters when utilizing the flipped method and whether student engagement in the traditional ELA curriculum is unique due its emphasis on discussion and holistic assessment

Gamificacion in education and active methodologies at Higher education

In recent years, there has been an increasing interest in applying Gamification in Education, which can be defined as the application of game design elements to learning activities. Its purpose is to motivate students by creating an engaging learning experience that can keep students focused on the learning task and its application in the classroom, is still in its emergent stages. Gamification is a great challenge for education, particularly in Higher Education Institutions (HEI) in such a traditional context, as is the case with courses like Management and Administration Business, Finance and Accounting, Marketing and Market Research, Chemistry, Accounting and Administration and Business Communication. This paper presents a study, applied in the 2016/2017 and 2017/2018 academic years, in which the teaching method focuses on a blended learning approach, through the implementation of a flipped classroom model and also through the introduction of online gamification activities such Kahoot! application. Kahoot is a game-based learning platform, used as educational technology that can easily be used for initial, formative and summative assessment of students’ knowledge using individual or collaborative team work mode, adding vitality, student engagement, and also meta-cognitive supports to higher education classrooms with limited instructor or student training required. The participants, in the study, were about 3 000 students of 17 different subjects from the aforementioned courses, of the Malaga University and Polytechnic of Porto. The results of this study suggest that this model improves student learning and are of relevance to researchers, educators and game-based learning designers.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tec

Digital Dissemination Platform of Transportation Engineering Education Materials Founded in Adoption Research

INE/AUTC 14.0

Motivation to learn Chemistry in massive open online courses

One of the key factors for any educational proposal to achieve success lies in the motivation of students. The disposition that the students have before the learning is fundamental to be able to obtain the objectives. MOOC (Massive Open Online Course) has emerged strongly in the context of university education. The use of MOOC offers time in the classroom that can be used to do active learning activities in which teachers' role is essential, and students can review learning materials at their own pace. The objective of this paper was to evaluate a course about concepts. The use of a MOOC named Introduction to Chemistry: Reactions. It is a course for students with limited background in chemistry; basic concepts involved in chemical reactions, stoichiometry, the periodic table, periodic trends, nomenclature. The evaluation of the proposal was made by students of Electrical Engineers at University of Malaga, with satisfactory results.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech