Revista Brasileira de Educação do Campo

The Brazilian Scientific Journal of Rural Education

ARTIGO/ARTICLE/ARTÍCULO

DOI: http://dx.doi.org/10.20873/uft.rbec.e7240

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

Este conteúdo utiliza a Licença Creative Commons Attribution 4.0 International License

Open Access. This content is licensed under a Creative Commons attribution-type BY

Conceptions of the importance of Science Education in

basic education by undergraduates of a Rural Education

Degree course

Renata José de Melo

, Fernanda Welter Adams

, Simara Maria Tavares Nunes

1, 2, 3

Universidade Federal de Catalão - UFCat. UAE de Educação. Avenida Dr. Lamartine P. Avelar nº 1120, Setor

Universitário. Catalão - GO. Brasil.

Author for correspondence: renatacatcity@hotmail.com

ABSTRACT. Education seeks to follow scientific and

technological changes, in order to provide a critical formation of

the subjects. Teaching of Natural Sciences is essential for

students to interpret the world and be active citizens in society.

Rural students also need this critical training. Thus, our

objective is to analyse the conception of the importance of the

Teaching of Natural Sciences in Basic Education of

undergraduate students of the Course in Education in the Field

of the Federal University of Goiás/Regional Catalão. For the

integral training of the target audience subjects of rural

education, is perceived the need for a differentiated initial

training, which guarantees the undergraduate students to become

critical subjects. This work starts from a qualitative research that

used questionnaires for data collection, being applied to nine

undergraduates, about to obtain licensee degree. They believed

that Science Education is important for Basic Education, as it

provides knowledge that allows the understanding of the world

and the responsible and active performance of students in

society. During their training, the undergraduate students

reported that they had the opportunity to experience the

contextualization of scientific knowledge, enabling them, for a

quality teaching, in order to also train students in rural education

in a critical and contextualized way.

Keywords: Science Education, Rural education, Teacher

Training, Criticity.

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

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e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

Concepções da importância do Ensino de Ciências na

educação básica por licenciandos de um curso de

Educação do Campo

RESUMO. A educação busca acompanhar as mudanças

científicas e tecnológicas, de forma a proporcionar uma

formação crítica dos sujeitos. O Ensino de Ciências da Natureza

é fundamental para os educandos interpretarem o mundo e

serem cidadãos ativos na sociedade. Os alunos do campo,

também necessitam dessa formação crítica. Assim, objetiva-se

analisar a concepção da importância do Ensino de Ciências da

Natureza na Educação Básica de graduandos do Curso de

Licenciatura em Educação do Campo da Universidade Federal

de Goiás/Regional Catalão. Para formação integral dos sujeitos

público alvo da Educação do Campo percebe-se a necessidade

de uma formação inicial diferenciada que garanta aos

licenciandos se tornem sujeitos críticos. Este trabalho parte de

uma pesquisa qualitativa que utilizou questionários para a coleta

de dados, sendo aplicado a nove licenciandos, prestes a se

formarem. Estes acreditavam que o Ensino de Ciências tem

importância para a Educação Básica, ao proporcionarem

conhecimentos que permitem a compreensão do mundo e a

atuação responsável e ativa dos alunos na sociedade. Durante

sua formação os licenciandos relataram que tiveram a

oportunidade de vivenciar a contextualização do conhecimento

científico, habilitando-os, para uma docência de qualidade, de

modo a também formarem alunos da Educação do Campo de

maneira crítica e contextualizada.

Palavras-chave: Ensino de Ciências, Educação do Campo,

Formação docente, Criticidade.

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

Concepciones de la importancia de la Educación en

Ciencias en la educación básica por licenciantes de un

curso de Educación Rural

RESUMEN. La educación busca acompañar los cambios

científicos y tecnológicos, a fin de proporcionar una formación

crítica de los sujetos. La enseñanza de las ciencias naturales es

esencial para que los estudiantes interpreten el mundo y sean

ciudadanos activos en la sociedad. Los estudiantes rurales

también necesitan esta capacitación crítica. Por lo tanto, el

objetivo es analizar la concepción de la importancia de la

Enseñanza de las Ciencias Naturales en Educación Básica de

estudiantes de pregrado del Curso de Educación Rural de la

Universidad Federal de Goiás/Regional Catalão. Para la

formación integral de las asignaturas destinatarias del público de

educación rural se percibe la necesidad de una formación inicial

diferenciada que garantice que los estudiantes de pregrado se

conviertan en asignaturas críticas. Este trabajo es parte de una

investigación cualitativa que utilizó cuestionarios para la

recopilación de datos, que se aplicaron a nueve graduados, a

punto de graduarse. Estos creían que la educación científica es

importante para la educación básica, ya que proporcionan

conocimiento que permite la comprensión del mundo y el

desempeño responsable y activo de los estudiantes en la

sociedad. Durante su capacitación, los estudiantes universitarios

informaron que tuvieron la oportunidad de experimentar la

contextualización del conocimiento científico, lo que les

permitió, para una enseñanza de calidad, con el fin de capacitar

también a los estudiantes en educación rural de una manera

crítica y contextualizada.

Palabras clave: Enseñanza de la Ciencia, Educación Rural,

Formación del Profesorado, La Criticidad.

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

Introduction

We live in a dynamic world,

characterized by constant updates and

transformations, where everything is in a

constant process of change and

improvement. We do not handle with a

perspective of absolut and unquestionable

knowledge, but one influenced by the

globalization, the scientific and

technological evolution, besides

multimedia and the concept of processes.

Everything happens on a space-time tissue

and the world is simultaneously informed,

interacts and reacts, compatible with its

concernments (Silva, 2010). In this

transformation process one can find the

Education, specially the Science

Education, on which day after day, a new

discovery is reported: “Science is a

complex activity, historically and

collectively built, that influences and is

influenced by social, technological,

cultural, ethical and political reasons”.

(Andery et al., 2004, p. 24).

In this point of view, the teaching-

learning process must follow these

transformations and knowledge of Natural

Sciences is fundamental to interpret our

actual world. Facing that, the Science

Education would not be useful only to

support student to comprehend the world,

but also to add other ways to interpret it, so

student can handle scientific knowledge

and build a critical and collaborative

consciousness.

On that sense, in Science Education,

one should work with scholar scientific

content and its conceptual,

interdisciplinary and contextual

relationships, always observing student

evolution (Vygotsky, 1991). Considering

Chassot (2010), Science Education is

important for a person into a school

training process, among others, by the fact

that this knowledge gives to a citizen, basic

information and expertise to analyze and

judge science and technology, using good

arguments, besides ambiental concernment

(Chassot, 2010).

Science Education refers to a field of

knowledge and a group of activities that

offers a scientific view of real world and

develops reasoning capabilities even on

tender ages ... Elementary schools have the

social role to put its children on contact to

a knowledge called scientific knowledge.

(Arce, Silva & Varotto, 2011, p. 9).

The Common National Curricular

Basis (BNCC) (Brasil, 2018) points that

learning natural sciences goes beyond to

learn conceptual content. BNCC also

invokes the discussion of the role of

scientific and technological knowledge on

social organization, ambiental issues, on

human health and cultural construction, in

other words to analyze the relationships

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

between science, technology, society and

ambient (CTSA approach). In this sense

learning process must prioritize the

application of this knowledge into the

student’s life, directing to a protagonism of

the individual, when facing daily issues

(Brasil, 2018).

But how to implement Science

Education on elementary and high levels,

in a way it can permit student to interpret

the world in a critical and responsible way,

if we do not modify teacher’s praxis. Bizzo

(2009) emphasizes that the crucial point

for teaching is to recognize the possibility

of understanding scientific knowledge and

its importance in the training of our

students, once it can effectively contribute

to its improvement. So, the scientific

knowledge combined to Science Education

can construct relations, citizenship,

responsible both consumers and

technology users (Viecheneski & Carletto,

2012).

In Brazil, the Science Education was

influenced by the relations of power

stablished between scientific institutions,

by the education’s role on spreading that

knowledge and by the conflict between old

and actual careers, “resulting from new job

relations raised on contemporary societies,

focused on information and consumption”.

(Marandino, 2005, p. 162). Mandarino

(2005) affirm that the scientific knowledge

spread is characterized by huge challenges

and clashes, especially on polemics

regarding Science Education objectives.

Considering the National Curricular

Parameters – PCN (Brasil, 1997) Science

Education is to observe, to experiment and

to build. Is to make the student feel

yourself and know the world where we

live, understanding and respecting the life

and executing the received knowledge to

preserve the life.

The education offered to countryside

citizens, as well as the offered to city

citizens, also lacks a critical scientific

literacy to students residing the countryside

(Marandino, 2005, p. 162). Countryside

Education, originated into the social

movements struggle, clearly brings the

intention of the development of an

equalitarian society with social justice

(Molina & Freitas, 2011). So, in regard to

Science Education into Countryside

Education is important that “… the future

countryside teachers learn to teach life

sciences, based on student’s experience

and significance context of the community

where they live and teach”. (Lima, Paula &

Santos, 2009, p. 114). But, to teaching-

learning process can make sense to

students, its need overcome the traditional

teaching vision, supported on transmitting

and receiving its contents and incite

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

students to think about societies issues,

starting from a scientific knowledge basis.

To Britto (1994), when studying

science topics, it is important that the

teacher conduct the student, not only to

realize changes in nature, but to feel the

effects that can influence people’s life.

Frigotto (2011) points the Countryside

Education, due to its origins and specially

experiences into MST (a social movement

focused on agricultural lands distribution)

settlements, is joined to pedagogical

practices that “… do not start on school,

but on society, and back to itself, where

school is a fundamental space” on relations

between the knowledge raised by social

practices and the scientific knowledge.

To guarantee a change on the way to

teach sciences, we must to change the

earlier phases of teacher formation, starting

from the discussion on methodologies and

didactic resources that guarantee teaching-

learning process, until discuss Countryside

Education specificities. In this sense:

To form teachers of sciences not only

for acting at countryside, using it only to

contextualize its instruction, but to act on

the Countryside Education – effectively

considering its principles, specificities and

demands – requires a compulsory

articulation between the consolidated

Education field, the Science Education and

the emergent Countryside Education

(Brick et. al., 2014, p. 30).

Starting from this reflection, the

objective of this work is to present

conceptions from undergraduate students

of the graduation course on Countryside

Education of the Federal University of

Goiás, Catalão Campus

(EDUCampo/UFG/RC), habilitation in

natural sciences, about importance of

Science Education on basic education,

specially Countryside Education, as well as

the need of a unusual initial formation in

order to guarantee the countryside students

become a critic subject environmentally

responsible. Those undergraduate students,

as future elementary school science

teachers (6º to 9º period) and also biology,

physics, and chemistry into high school (1º

to 3º period), were led to

think/problematizing about the role of this

area on the critic and reflective formation

of its future students.

The graduation on Countryside

Education and Science Education

Graduating on Countryside

Education is intended to prepare educators

to a “… integral professional practice

offering professional conditions on

management of teaching learning

processes that happens into school and

around it” (Lopes & Bizerril, 2014). In this

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

context, the graduation course of

Countryside Education has an important

social role, because it arises from decades

of struggle fought by social movements:

A struggle that goes beyond agrarian

reform, because to have a land reform, it is

important to have a reform in education

and in the countryside, a portion that has

always been excluded from quality public

education: people have the right to be

educated where it lives; people has the

right to access an education thought from

their place and with their participation,

linked to their culture and their human and

social needs (Caldart, 2002, p. 18).

The training by knowledge area,

interdisciplinary and alternating between

community times and school/university

times (pedagogy of alternation) comprise

the set of elements that defines the

guidelines to graduation in Countryside

Education, that refers to the needs of

establish reflections and dialogues, about

limits and possibilities, of consolidation of

these guidelines onto the scope of teacher

formation and actions in countryside

schools (Britto & Silva, 2015).

In university time (UT) students

attend classes and other academic activities

on university scope and on community

time (CT) they develop works on

communities that starts from its diagnosis,

approximation between schools,

classrooms, until communitarian projects

intended to reach the integration between

school and community (Brick et al., 2014).

In this sense, on 2014, after being

selected on PROCAMPO (Support

programme to Graduation on Countryside

Education), the special academic unit of

education of Federal University of

Goiás/Catalão (UFG/RC) starts the

elaboration of the graduation course on

Countryside Education of the institution.

The course’s main objective is to

promote Teacher’s Formation to act on

middle and high school, giving to graduate

student a licentiate degree on Countryside

Education – licensed in natural sciences

(Federal University of Goiás, 2017). Also,

the course is focused on qualify educators

to interdisciplinary teaching, on natural

sciences, into countryside schools and

management of primary school processes

into same institutions.

Thus, Countryside Education is

configured in the Brazilian education

scenario as a process in constant mutation,

in order to consider particularities, present

in countryside and consequently permeate

the process of teaching and learning of the

countryside subjects. In Countryside

Education, the Science Education has its

specificities when compared to other

teaching modalities. According to Lima

(2010, p. 45), it is important that “... future

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

countryside educators learn to teach life

and natural sciences based on contexts of

experience and meaning of students, on

communities in which they live and teach”.

The culture and relationships these subjects

establish with the land, requires that these

meanings and signifiers be incorporated

into the class planning (Enisweler,

Kliemann & Strieder, 2015). This will

occur through initial teacher formation that

allows them to deal with these specificities

present in their training process.

Methodology

This work presents a qualitative

research that has in this core questions

about Science Education on initial training

of the graduation on Countryside

Education of the Federal University of

Goiás/Catalão Regional

(EDUCampo/UFG/RC). This work is a

part of a graduation work and was

executed at UFG/RC. Participants were

students from the first class of the course

on its last semester.

Regarding the qualitative nature of

this work, Bogdan and Biklen (1994)

affirm that a qualitative research aims to

analyze the phenomena in all their

complexity and in their natural context,

concentrating the comprehension from the

point of view of the investigated subjects.

Martins (2004) also states that qualitative

research is important because it allows to

collect evidence about the topic addressed

in a creative and intuitive way, once there

is a proximity between researcher and

researched, allowing the understanding of

beliefs, traditions, in a maximum

intertwining with the object under study.

The instrument used to obtain our

data was a questionnaire. It is noteworthy

that this tool was applied to the first

undergraduate students of the Degree

Course in Rural Education

(EDUCampo/UFG / RC), who at the time

of the research were in the process of

graduating, aiming to investigate how

Science teaching is been conducted in the

early stages of the course. The

questionnaire had both open and closed

questions. We opted to use this

methodology because we believe that it

would provide freedom to the subjects to

express their opinions about matter in

question at the right time for each one,

once all the participants were employed

during the day and, at night they dedicated

themselves to the classes, which would

make more difficult to use interviews,

which would require common schedules

between researcher and subjects.

For Gil (1999, p. 128),

questionnaires are investigation

instruments that, through a high number of

written questions, aims to “the knowledge

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

of opinions, beliefs, feelings, interests,

expectations, experienced situations, etc.".

Some advantages of using a questionnaire

to collect data includes: a) It implies less

expenditure on personnel, once it does not

require researchers training; b) Ensures

anonymity of responses; c) It allows

people to answer it at a convenient

moment; and d) It does not expose

researchers to the influence of the

interviewee's opinions (Gil, 1999).

Nine students among the 10 (ten),

who are graduating (students in the last

semester of the Course), of the

EDUCampo/UFG/RC have answered the

questionnaire. The majority (90%) were

female and only one (10%) male, aged

between 32 and 57 years old. To guarantee

the anonymity of the participants,

identification codes were created, the letter

L followed by numbers ("1", "2", etc.) was

adopted to identify the subjects. In order to

determine the sequence, it was decided to

use the participant names on alphabetical

order, thus assigning the codes L1 to L9 to

the undergraduates.

The data obtained from the

questionnaires were analyzed using

Discursive Textual Analysis technique.

Discursive Textual Analysis is a data

analysis technique that has characteristics

of two important techniques of qualitative

research analysis, the content analysis and

discourse analysis (Moraes & Galliazzi,

2006). A discursive textual analysis is

described as a process that starts with

unitarization, a stage in which the texts are

separated into units of meaning and, then,

the articulation of similar meanings used in

a process called categorization. Onto

categorization, similar units of meaning are

gathered, and several levels of analysis

categories can be generated. This whole

process generates analytical meta-texts that

will compose interpretative texts (Moraes

& Galiazzi, 2006), reaching the last stage

of the analysis, called communication.

After finishing the questionnaires´s

tabulation, a reading was carried out

allowing to observe which subjects

appeared most frequently in the speech of

the undergraduates, and, thus, it was

possible to gather the units of meanings

(excerpts) most close to meaning, then

categories were established. This step of

Textual Discursive Analysis is called

categorization.

The determined categories constitute

the organizational elements of the text to

be written. Coming from them, the

descriptions and interpretations of the

understandings that emerged during the

analysis will be produced. There are

different ways of producing the categories;

in the deductive method, categories are

determined before unitarization; in the

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

inductive method, they are produced from

the units of meanings obtained in the

unitarization stage (Moraes; Galiazzi,

2006). It is worth highlighting that, the

inductive method was used, because

however we started with initial theoretical

assumptions, categories were organized by

comparing the units of meaning that

emerged during the disassembly of the

texts. In this process, one of the categories

created was: “Conceptions of the

importance of Science Education in Basic

Education by undergraduates of a

Countryside Education Graduation

course”, subject of the present work.

Results and discussion

This work presents and discusses

results for the conception of the

importance of Science Teaching by

undergraduates of the first class of

Countryside Education Graduation Course

at Federal University of Goiás/Catalão

(EDUCampo/UFG/RC). For most research

subjects (95%), when the graduation

course on Countryside Education was

chosen, they initially did not seek

graduation with a focus on the Teaching of

Natural Sciences (Biological Sciences,

Physics and Chemistry), they had only the

desire (dream) to attend a university. But,

during the course, it is assessed that they

were able to realize that this area is of great

importance for the integral training of

subjects and that, based on the knowledge

of natural sciences, they could better

understand the world around them and

become more participative in society,

taking this knowledge to their future

students in a way they are also trained on a

critical perspective for an active

performance in society.

For Krasilchik and Marandino (2004,

p. 43), “the integration of Science

Education elements with other elements

from its curriculum, besides leading the

analysis of their social implications, gives

meaning to the concepts presented, to the

values and the necessary skills for rigorous

and productive work”. It is necessary to

recognize that through the Science

Education it is possible to problematize

actual themes, leading the student to relate

scientific knowledge with his/her daily life,

especially through interdisciplinarity. In

this perspective:

... Science Education should

contribute to reading and writing

proficiency; allow the learning of the

basic concepts of natural sciences

and its application in daily life; to

understand the relationship between

science and Society, also

mechanisms of production and

appropriation of scientific and

technological knowledge; guarantee

the construction and systematization

of knowledge and also regional and

local cultures. (Fracalanza, Amaral &

Gouveia, 1986, p. 26-27).

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

The teaching and learning process of

Science Education must propose and

instruct the student to have a positive

attitude towards changes in a reflexive

way; get him to think, feel and act for life,

in order to discover his world, as well as

know it to find out how to value

environment around, enabling him to make

right decisions to his fellows and nature. In

this sense, Cachapuz, Praia and Jorge

(2004) state that the best way to predict the

future is to help creating it, which can

happen through actions that perceive

Science and Science Education as a

dynamic system, built by and for

humanity. Therefore, respondents were

asked whether they considered the Science

Education important in Basic Education; in

response, everyone said that this is very

important. According to them, the Science

Education are directly linked to the lives of

students, and can assist in the construction

of critical meanings about this world:

Excerpt 1- "Yes, it's important.

Science is present all around us, and

this scientific knowledge allied to

student's daily life makes them to

become more critic, capable of

understanding the world around

them" (L3).

Excerpt 2- "Yes, it is very important

for young people to have a critic

education; learning science is the

way act as a good human and

professional being" (L6).

Excerpt 3- "Yes, because as Chassot

says, science teaching must be a basis

to the student in order to able him to

read the world, so it is important that

from early years he starts to access

this basis to build up these

knowledge" (L8).

Through the words of the

undergraduates, one can realize that it is

necessary to offer conditions for students

to develop more and more knowledge

about nature and respect to it, becoming

able to understand its phenomena and use

natural resources with responsibility and

wisdom. The development of this

knowledge and these attitudes is

undoubtedly related to the contents and

procedures of the Science Education field;

the teacher is responsible for contributing

and creating real conditions for students to

develop skills to solve problems and

correlate this knowledge to his daily

routine.

Thus, undergraduates recognize the

need for natural science’s knowledge, in

order to interpret the world and daily life in

a realistic and active way. However,

undergraduates have shown a certain

concern about the scientific knowledge,

built up by them through the course. Once

it is a course degree that graduates for

interdisciplinary teaching in Biological

Sciences, Physics and Chemistry, they

demonstrated a feeling that it only

addresses these fields in a shallow way. In

this context, Brick et al. (2014) emphasize

that Countryside Education cannot only be

understood as a simple knowledge context

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

of application, already produced over four

decades in Science Education

investigation, but it must be understood as

an Education project that, even being under

construction, has reasons, legitimated by

social movements that demanded them and

they were legally instituted by normative

resolutions.

Krasilchik (1987) points out that one

of the factors that negatively influences

Science Education is the superficial

formation of the teachers, thus, the

complaints that only referred to the

superficiality in methodological areas,

were extended covering the professional

formation regarding the knowledge of the

general subjects themselves, leading them

to a insecurity for the class, to low quality

of his classes and to the close dependence

of textbooks (Krasilchik, l987, p. 48).

Therefore, the complaint of

EDUCampo/UFG/RC undergraduates is

not exclusive to them as shown on other

studies. Tardif (2002) states that the

relationship of the teachers with the

knowledge cannot be reduced to a

transmission of constituted knowledge. His

practice is the sum of different

knowledges, on which the teaching staff

maintains different relationships. Teachers'

knowledge can be defined as a plural

knowledge, constituted by the

amalgamation, more or less coherent, of

disciplinary, curricular and experiential

knowledge.

As teaching in this course must be

based on interdisciplinarity "can be

considered as a possibility of breaking the

rigidity of the compartments in which the

disciplines of school curricula are

isolated". (Pires, 1998, p. 177). Regarding

teacher formation, it is recommended the

need of a non-linear and hierarchical

structure, in which teachers' knowledge is

not reduced to disciplinary knowledge

(Fazenda, 2008). The author, therefore,

points the need to break with rigid

disciplinary barriers, indicating the

connection of different, local and global

knowledges, which we understand as a sine

qua non condition for the proposal of

countryside Education in the Teachers

formation by area of knowledge.

Regarding the contents of Nature

Sciences, the students commented that:

Excerpt 4 - "I think is a short time, a

lot of content and short time to go

deeper. I just needed more time

because I don't feel totally prepared"

(L2).

Excerpt 5 - "The contents of

Chemistry and Physics, in my

opinion, needed more classes to

achieve the necessary knowledge to

act in the area" (L9).

Excerpt 6 - "Four years is short

period for the qualification in these

three areas [...] so that you have

critical knowledge in all of them"

(L5).

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

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Tocantinópolis/Brasil

v. 5

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2020

ISSN: 2525-4863

Thus, students realize the importance

of acting critically in their future teaching

practice. However, they have identified

gaps in their formation, stating that they

consider four years a short period for them

to build scientific knowledge critically.

Hence, on other questions, the students

were asked about the experience of

contextualized classes or other activities

that have provided differentiated

methodological experiences. The future

teachers, without exception, cited that they

experienced contextualization during their

initial teacher formation. They also

mentioned that the contents of Biological

Sciences, Physics and Chemistry were

studied in a contextualized way, based on

their realities. They also cited the

opportunity to experience this

contextualization in the disciplines of

"Practices of Science Laboratories" 1 and

2, and in the disciplines of Internship (an

opportunity to experience the development

and implementation of contextualized

classes). Therefore, they affirmed that they

experienced the contextualization in the

disciplines of Sciences attended during the

initial formation and put into practice in

disciplines both of Internship and Teaching

Instrumentation (practical subjects).

Despite the insecurity about their

formation, it has provided students with the

opportunity to experience the

contextualization of knowledge,

transcending the traditionalist vision of

Higher Education of graduation courses in

Nature Sciences based on the transmission

of a closed content. Silva (2007) states that

performing activities of this nature

(contextualized classes) is not easy, mainly

due to the fact that frequently,

undergraduates experience a formation,

both on basic and higher education,

focused almost exclusively on the final

product of science, described by

mathematical expressions.

In this perspective, Wartha and

Alário (2005) point out that the process of

contextualization aims to incorporate

concrete and diversified experiences in the

learning process. This should include, in a

critical way, the meaning-of students' daily

lives. The authors also state that "...

contextualizing is creating meanings and

these are not neutral, they incorporate

values because they explicit the daily life,

they promote the comprehension of

problems from social and cultural

environment, or ease to experience the

process of discovery". (Wartha & Alário,

2005, p. 43). In this way, it is believed that

the experience of contextualized classes

can offer subsidies for future teachers to

develop them during their future

professional career as well.

Undergraduates also cited that the

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

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Tocantinópolis/Brasil

v. 5

e7240

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2020

ISSN: 2525-4863

activities of Community Time also

provided the opportunity to contextualize

and experience scientific knowledge:

Excerpt 7 - "... because it is a way to

know the experiences, the daily life,

culture and reality that we will face

as a teacher. Science teaching is also

that, relating scientific knowledge to

our reality" (L 4).

Excerpt 8 - "... studying theory in the

classroom and then we have the

opportunity to go into the field and

make the interaction of scientific

knowledge with everyday

knowledge" (L7).

Once again, despite the normal

insecurity, typical of recent graduates, they

claim that they had the opportunity to

experience the contextualization of

scientific content in their initial Teacher

Formation. Thus, the results obtained in

this work point out that giving graduates

the opportunity to join contextualized

classes and promote experiences in the

development of such strategies, contributes

to a solid initial formation, because these

future teachers take ownership of the need

to promote differentiated learning, to

ensure that Science Education creates

critical citizens.

Silva (2007) states it is clear that the

undergraduate gradually appropriates the

educational discourse, which is presented

to, in the pedagogical disciplines of the

course. However, the learning focused on

the use of this knowledge and these skills,

comes up against difficulties of different

natures. The most significant ones seem to

be linked to the fact that the undergraduate

still has many difficulties with the

conceptual domain of Physics. Moreover,

the perspective of contextualizing the

specific contents, is not a common practice

on other disciplines of the course. In this

case, it is possible to say that, at this stage

of formation, few undergraduates venture

to carry out educational activities that

deviate from what they often have contact,

within the various disciplines of the

undergraduate course (Macedo & Silva,

2014, p. 69).

On words from the interviewed

students, they claimed to have experienced

contextualized teaching, which can be

considered an exception and a prospective

of contextualized initial teacher formation.

Some examples are the replies of the

students who have shown that in their

formation they had the opportunity to

experience the relationship between

Science, Technology, Society and

Environment (CTS). According to Santos

and Mortimer (2002), all curricula with a

Science, Technology and Society approach

have as main objective to prepare students

for the exercise of citizenship and are

characterized by an approach to scientific

content in its social context. Thus, when

maintaining contact with a CTS approach,

they had the opportunity to become

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

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Tocantinópolis/Brasil

v. 5

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2020

ISSN: 2525-4863

critical, conscious and elucidated citizens

as to the scientific and technological

problems of the society:

Excerpt 9 - "Yes, because all the

disciplines have contributed to make

me a critical citizen and aware of my

rights and duties as a human being in

this world" (L1).

Excerpt 10 - "disciplines attended in

the Course give us a very good vision

about the social, scientific and

technological world. Some things I

thought in a way, today I think on

another way in function of the

knowledge acquired in the course. I

believe that this is the role of an

University, to train a critical citizen,

with discernment of ideas and ready

to act into classroom" (L6).

Excerpt 11 - "Before entering the

University I was an alienated person,

I always agreed with what I heard.

Today I can say that I am a critical

person, who always to question

before arguing" (L8).

These lines demonstrate that the

scientific and pedagogical knowledge built

up, has contributed to critical Teacher

Formation. Therefore, a future critical

action is also expected. Furthermore, it is

believed that the Science Education in

Countryside Education will make sense if

it is focused on the specificities of these

communities have, i.e., from the daily lives

of those involved. Britto (2011) calls

attention to the need to consider the

challenges of thinking about a Science

Education that must be at the service of the

Countryside Education project. Carvalho

and Gil-Pérez (2011) suggest that Science

can be understood as a way of looking

critically to complex problems of social

importance in each specific context - "and,

from this perspective, needs to mobilize

available knowledge from specific areas in

articulation with knowledge from other

areas, on an interdisciplinary sense".

(Brick et al., 2014, p. 44).

Pinheiro, Silveira and Bazzo (2007)

consider that the Science, Technology and

Society (CTS) approach, profoundly

modifies classroom work, reinforcing

topics like the ways of knowledge

production of Science and Technology,

within social and political responsibility. In

that sense, it is believed that the Science

Education will be important to countryside

students if an approach of teaching based

on CTS methodology, which take into

account the context in which the students

are inserted, is inserted. Corroborating with

this, López and Cerezo (1996) affirm that

the Curricular Proposal of CTS would

correspond to an integration between

scientific, technological and social

education, in which the contents are

studied together with the discussion of its

historical, ethical, political and

socioeconomic aspects.

Finally, Adams et al. (2016) believe

that with CTS approach, students can

develop knowledge in the cognitive, social

and environmental areas, because starting

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

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2020

ISSN: 2525-4863

from this methodology, during a class,

students have direct contact with people,

learn to work in teams, communicate and

accept ideas from others, in short, they

experience elements to train themselves as

critical citizens, and can also develop

changes in attitudes towards the problems

studied.

In the questionnaires, besides

mentioning that they had the discipline of

Science, Technology and Society focused

on the discussion of this teaching approach

in their training, the students also

mentioned that they were able to elaborate

and apply a didactic sequence, with a CTS

focus, in their Internships. Therefore, once

again the opportunity to experience a

differentiated teaching formation is

emphasized. Despite mentioning their

difficulties in the elaboration of this

sequence, they had the opportunity to

overcome such challenges:

Excerpt 12 - "Aligning scientific

knowledge with social aspects is not

an easy task for those who do not

have teaching practice. Now that we

are teaching, it is being easier" (L3).

This speech, therefore, demonstrates

the overcoming of difficulties. Macedo e

Silva (2014), in his work "The Processes of

Contextualization and the Initial Training

of Physics Teachers", which aimed to

analyze the understandings that Physics

teachers in initial training have about the

processes of contextualization, concluded

that it is essential that educational

processes of contextualized classes can be

addressed in a more articulated way during

the graduation course. In addition, it is

essential that students experience,

especially in the earlier stages, concrete

examples of these classes, both as students

and as teachers in internship. This shows

us that the initial formation experienced by

the students of the Graduation Course in

Countryside Education of UFG/RC is

singular, because it ensures they have most

diverse experiences, both experienced in

scientific disciplines (Biological Sciences,

Physics and Chemistry), as in teaching

practices (Internships and Instructions for

Teaching), which allowed them to acquire

a differentiated background, for

elaboration of classes that ensure a

contextualized process of teaching and

learning and also quality to their future

professional performance.

Final considerations

The results of this paper show that

the undergraduates from the Degree in

Countryside Education of the Federal

University of Goiás/Catalão Regional,

proficiency in Nature Sciences, understand

the importance of Science Education to the

critical formation of their future students. It

is clear that the respondents understand

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020). Conceptions of the importance of Science Education in basic education by

pre-service teachers of a Rural Education Degree course…

RBEC

Tocantinópolis/Brasil

v. 5

e7240

10.20873/uft.rbec.e7240

2020

ISSN: 2525-4863

that Science Education has enormous

importance for the development of the

student, especially as subject, once with

scientific knowledge developed, they may

be able to act in their reality with critical

and active sense. It is thus believed that, in

their future pedagogical practice, they can

make use of a contextualized teaching,

focused on the countryside student’s

reality.

In this sense, it is necessary that the

school find a different path from the one

already outlined and introduces in the

classroom truly interactive actions in order

that education take place in a meaningful

way in individual's life of student, in a

form he can better understand the society

in which he lives and his relationship with

the world, playing his role in the creation

of reality and in its own history. So, it is

necessary to create strategies to stimulate

the student's attention, planning in the

curricula the use of technological means,

placing them at the service of a creative

and more attractive training, in an attempt

to be along with the technological

evolution.

In regard of the insecurity

demonstrated by future teachers, it is

believed that this is common among

undergraduate students, or recently

graduated. It is common that, in these

circumstances, they present a level of

insecurity. But in case of the professional

teacher, it is considered that is inside

classroom practice, that he will, truly learn

to be a teacher, coming from the daily

experiences and the construction of his

identity, started in his initial formation, but

which continues in his professional

performance.

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Note:

Work initially published in a summarized form in

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Article Information

Received on July 24th, 2019

Accepted on January 20th, 2020

Published on May, 29th, 2020

Author Contributions: The author Renata José de Melo

was responsible for the elaboration, analysis and

interpretation of the data; writing of the manuscript; the

author Fernanda Welter Adams was responsible for the

analysis and interpretation of the data; writing and

reviewing the manuscript content, and Simara Maria

Tavares Nunes was responsible for guiding the

preparation and interpretation of data, as well as

responsible for reviewing the manuscript content; the

authors approved the final published version.

Conflict of Interest: None reported.

Orcid

Renata José de Melo

http://orcid.org/0000-0002-9613-039X

Fernanda Welter Adams

http://orcid.org/0000-0003-4935-5198

Simara Maria Tavares Nunes

http://orcid.org/0000-0002-7196-4398

How to cite this article

APA

Melo, R. J., Adams, F. W., & Nunes, S. M. T. (2020).

Conceptions of the importance of Science Education in

basic education by pre-service teachers of a Rural

Education Degree course. Rev. Bras. Educ. Camp., 5,

e7240. http://dx.doi.org/10.20873/uft.rbec.e7240

ABNT

MELO, R. J. ADAMS, F. W.; NUNES, S. M. T.

Conceptions of the importance of Science Education in

basic education by pre-service teachers of a Rural

Education Degree course. Rev. Bras. Educ. Camp.,

Tocantinópolis, v. 5, e7240, 2020.

http://dx.doi.org/10.20873/uft.rbec.e7240