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Advances in Social Sciences Research Journal (ASSRJ) Vol. 9, Issue 9, September-2022
Services for Science and Education – United Kingdom
INTRODUCTION
Teaching science is a challenging task. During the COVID19 Pandemic, stumbling and inertia
spread among students, especially the economically disadvantaged students, who didn ́t have
access to school. These data presented by the Portuguese Ministry of Education led to a
reflection in society and the education system, on how to help these most disadvantaged
students.
In some schools, projects were proposed considering their school population and overcoming
the difficulties detected, namely the lack of concentration in classes, which began to spread
among the students, and the lack of motivation and commitment to and in carrying out learning.
In the school where the project was implemented students had difficulties in measuring or
working with simple laboratory apparatus, difficulties in giving meaning to the experimental
procedure, describing an observation, collecting data, analyzing data, and interpreting the
results. In this context, a learning and teaching method that uses hybrid learning environments,
based on practical work by laboratory stations, developed according to the collaborative Peer
Instruction approach in a flipped classroom environment was applied. The main goals of the
project were to develop scientific skills (like planning, collecting data observing and measuring,
classifying, quantifying, predicting, controlling variables, interpreting, forming conclusions, and
communicating) but also motivation and engagement in chemistry and physics.
Based on the implementation of the learning and teaching project, a research project emerges
as a study case. The research goals are to perceive the impact of this new approach on the
student’s motivation, self-regulation and learning outcomes.
This research was designed to reduce the difficulties detected in students after confinement
due to the COVID pandemic. It focuses on the flipped classroom and laboratory work by stations
and is focused on students.
In the first part of this research (the scholar year 2021/2022), the aim is to analyze the impact
of a teaching and learning methodology on self-regulation of learning, perception of self- efficacy for self-regular learning and the instrumentality of self-regulation processes of
learning. In the second part of this research (handle next scholar year in 2022/2023), the
impact of the intervention (flipped classroom with laboratory stations) on the learning process
was studied.
In the next sessions, a brief introduction to the flipped classroom, laboratory station model,
formative assessment, and PLEA model of self-regulation will be presented to allow the reader
to understand the intervention that was made in the experimental group. It is also important to
highlight that teacher that implemented the intervention was already accustomed to using
laboratory stations and formative assessments in their class.
Flipped classroom
In this type of methodology, is essential to have a platform in common with students or a shared
space (Teams platform, Moodle, Google Classroom). It is also necessary for the teacher to
make/produce materials for the students and classes or select materials (suitable for them) to
facilitate students’ first approach to the content. It is mandatory the student involvement, as it
is the centre of it, being important the learning environment where students access materials
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Coutinho, I. R. (2022). Teaching and Learning Chemistry and Physics with a Laboratory Stations Model in a Flipped Classroom – A Preliminary Report.
Advances in Social Sciences Research Journal, 9(9). 73-104.
URL: http://dx.doi.org/10.14738/assrj.99.12952
and study, as learning occurs firstly outside the school. The materials prepared or selected by
the teacher, as an important role in this context, as they should facilitate the learning process
and is the first approach to the contents. The assessment of the learning outcomes is also
important as it allows the monitoring and accompanying of the learning process and to perceive
the change the teacher should do the teaching process (if necessary).
Formative assessment
In Portuguese law, the assessment is presented in two types, the formative and evaluative. It
refers to the “Assessment of learning carried out in the subjects that are part of the study plans
of the Secondary Education courses comprises the modalities of formative assessment and
summative assessment (Decree-Law no. /2012, 10 August)” (from
https://www.dge.mec.pt/modalidades-de-avaliacao, retrieved on 5 July 2022). Formative
assessment is defined as follows “Formative assessment is continuous and systematic and has
a diagnostic function, allowing the teacher, student, parent and other legally authorized persons
or entities to obtain information on the development of learning, to adjust processes and
strategies.” (from https://www.dge.mec.pt/modalidades-de-avaliacao, retrieved on 5 July
2022). Regarding the summative (evaluative) assessment it says that “Summative assessment
consists of an overall judgment that leads to decision-making, within the scope of classification
and approval in each subject, non-disciplinary area and modules, regarding progression in non- terminal subjects, transition to the subsequent school year, completion and certification of the
secondary level of education.” (from https://www.dge.mec.pt/modalidades-de-avaliacao,
retrieved on 5 July 2022).
Formative assessment can be defined as the process of seeking and interpreting evidence for
use by learners and their teachers, to identify where the learners are in their learning, where
they need to go and how best to get there. Formative assessment provides information on
learning, and in this context should be frequent and involves quality feedback. It is also a
dialectic, continuous, dynamic, and constructive process that involves the students and the
teacher in a process of constructing knowledge. It is important to emphasize that it positively
affects students' motivation and self-regulation as encourages and develops students’ self- assessment. But it also recognizes students' performances and assesses student achievements
and learning outcomes.
To be useful, formative assessment should have associated timely and clear feedback. Feedback
can be classified as descriptive and evaluative being defined as a “range of processes (...)
whereby a student or group of students receives information about how well they understand
concepts and are progressing with their studies” (Webb and Willis, 2019). Feedback “(...)
should never be given before the student has had the opportunity to think and work on the task,
nor after knowing the answers, and preferably, tasks not yet classified should be chosen, in
which students still have the opportunity to improve “(Black & William, 1998, cited by Santos,
2010). It can be classified into five categories: “correction, reinforcement, forensic diagnosis,
benchmarking, and longitudinal development (feed-forward)” depending on the purpose
(Price, Handley, Millar & O’Donovan, 2010). Or regarding the contribution to the learning and
teaching process as formative feedback, summative feedback, negative feedback, and positive
feedback. Above all, to be effective, feedback must always be useful, timely, motivator, clear and
of quality and it must focus on processes and not on the students (Lizzio & Wilson, 2008;
Faulconer, Griffith & Gruss, 2021). It is important to feature that feedback is related to