Influência dos propósitos epistêmicos e das ações típicas do professor na promoção da argumentação em aula investigativa de ciências / The influence of epistemic purposes and typical actions of the teacher to promote argumentation in inquiry science class.

Oliveira, Thiago Luis Silva de

25 November 2016

A mediação do professor é fundamental para a construção de argumentos em aulas de Ciências. Nesse sentido torna-se importante estudar as interações discursivas entre professor e alunos. O presente trabalho teve por objetivo analisar como os propósitos e as ações do professor estimulam a argumentação dos alunos em uma aula investigativa de ciências. Para caracterizar a mediação do professor foi utilizada a ferramenta analítica \"propósitos epistêmicos e ações típicas para promoção da argumentação\" de Ferraz e Sasseron (2014) e de Ferraz (2015), enquanto que o layout de Toulmin (TAP) (2006) foi utilizado para identificar os elementos do argumento construídos pelos alunos. Foram identificados dois argumentos contendo os elementos básicos do TAP construídos coletivamente ao longo da aula. Durante a construção dos argumentos, o professor utilizou os propósitos retomar, problematizar, explorar e qualificar. As ações \"retoma dado\" e \"explora ponto de vista\" contribuíram para a construção do elemento dado. A construção da garantia deveu-se as ações \"retoma conceito\", \"retoma informações\", \"explora ponto de vista\" e \"qualifica variáveis, objetos ou fenômenos\". A construção do elemento conclusão foi promovida pela ação \"propõe um problema\". As ações \"qualifica variáveis, objetos ou fenômenos\", \"qualifica explicações ou pontos de vista\", \"retoma informações\" e \"explora ponto de vista\" auxiliaram na construção do elemento refutação do TAP. A maior frequência dos propósitos explorar e qualificar deveu-se ao esforço do professor em promover a avaliação de dados e garantias que os alunos estavam utilizando para a construção de suas conclusões sobre a presença ou não de seres vivos na amostra analisada. / The mediation of the teacher is fundamental for the construction of arguments in science class. Like this it is important to study the discursive interactions between teacher and students. This study aimed to analyze how the teacher\'s purposes and actions stimulate the reasoning of students in an inquiry science class. The analytical tool \"epistemic purpose and typical actions to promote the argumentation\" (FERRAZ; SASSERON, 2014; FERRAZ, 2015) was used to characterize the mediation of the teacher while the Toulmin Argument Pattern (TAP) (2006) was used to identify argument elements built by students. Two arguments containing the basic elements of TAP collectively built along class were identified. During the construction of the arguments, the teacher used the purpose resume, problematize, explore and qualify. The actions \"given recovery\" and \"explores view\" contributed to the construction of the data element. The construction of the warrants was due to the actions \"recovery concept\", \"recovery information\", \"explores points of view\" and \"qualifies variables, objects or phenomena\". The construction element conclusion was promoted by the action \"proposes the problem\". The actions \"qualifies variables, objects or phenomena\", \"qualifies explanations or points of view\", \"recovery information\" and \"explores perspective\" helped in the construction of refutation element of TAP. The highest frequency of the purposes explore and qualify was due to the teacher\'s effort to promote the evaluation of data and warrants that students were using to build its conclusions on the presence or absence of living organisms in the sample.

Ações Típicas

Argumentação

Argumentation

Biologia - Estudo e ensino

Biology - Study and Teaching

Ensino por investigação

Epistemic purposes

Inquiry-based Science Teaching

Propósitos epistêmicos

Typical Actions

Influência dos propósitos epistêmicos e das ações típicas do professor na promoção da argumentação em aula investigativa de ciências / The influence of epistemic purposes and typical actions of the teacher to promote argumentation in inquiry science class.

Thiago Luis Silva de Oliveira

25 November 2016

A mediação do professor é fundamental para a construção de argumentos em aulas de Ciências. Nesse sentido torna-se importante estudar as interações discursivas entre professor e alunos. O presente trabalho teve por objetivo analisar como os propósitos e as ações do professor estimulam a argumentação dos alunos em uma aula investigativa de ciências. Para caracterizar a mediação do professor foi utilizada a ferramenta analítica \"propósitos epistêmicos e ações típicas para promoção da argumentação\" de Ferraz e Sasseron (2014) e de Ferraz (2015), enquanto que o layout de Toulmin (TAP) (2006) foi utilizado para identificar os elementos do argumento construídos pelos alunos. Foram identificados dois argumentos contendo os elementos básicos do TAP construídos coletivamente ao longo da aula. Durante a construção dos argumentos, o professor utilizou os propósitos retomar, problematizar, explorar e qualificar. As ações \"retoma dado\" e \"explora ponto de vista\" contribuíram para a construção do elemento dado. A construção da garantia deveu-se as ações \"retoma conceito\", \"retoma informações\", \"explora ponto de vista\" e \"qualifica variáveis, objetos ou fenômenos\". A construção do elemento conclusão foi promovida pela ação \"propõe um problema\". As ações \"qualifica variáveis, objetos ou fenômenos\", \"qualifica explicações ou pontos de vista\", \"retoma informações\" e \"explora ponto de vista\" auxiliaram na construção do elemento refutação do TAP. A maior frequência dos propósitos explorar e qualificar deveu-se ao esforço do professor em promover a avaliação de dados e garantias que os alunos estavam utilizando para a construção de suas conclusões sobre a presença ou não de seres vivos na amostra analisada. / The mediation of the teacher is fundamental for the construction of arguments in science class. Like this it is important to study the discursive interactions between teacher and students. This study aimed to analyze how the teacher\'s purposes and actions stimulate the reasoning of students in an inquiry science class. The analytical tool \"epistemic purpose and typical actions to promote the argumentation\" (FERRAZ; SASSERON, 2014; FERRAZ, 2015) was used to characterize the mediation of the teacher while the Toulmin Argument Pattern (TAP) (2006) was used to identify argument elements built by students. Two arguments containing the basic elements of TAP collectively built along class were identified. During the construction of the arguments, the teacher used the purpose resume, problematize, explore and qualify. The actions \"given recovery\" and \"explores view\" contributed to the construction of the data element. The construction of the warrants was due to the actions \"recovery concept\", \"recovery information\", \"explores points of view\" and \"qualifies variables, objects or phenomena\". The construction element conclusion was promoted by the action \"proposes the problem\". The actions \"qualifies variables, objects or phenomena\", \"qualifies explanations or points of view\", \"recovery information\" and \"explores perspective\" helped in the construction of refutation element of TAP. The highest frequency of the purposes explore and qualify was due to the teacher\'s effort to promote the evaluation of data and warrants that students were using to build its conclusions on the presence or absence of living organisms in the sample.

Ações Típicas

Argumentação

Biologia - Estudo e ensino

Ensino por investigação

Propósitos epistêmicos

Argumentation

Biology - Study and Teaching

Epistemic purposes

Inquiry-based Science Teaching

Typical Actions

Effect of Three Different Types of High School Class Schedules (Traditional, Rotating Block, and Accelerated Block) on High School Biology Achievement and on Differences in Science Learning Environments

Keller, Brenda J. (Brenda Jo), 1942-

05 1900

This study analyzes the effect of three different high school scheduling options on the delivery of biology instruction, on student achievement, and on student perceptions of their instructional activities. Participants were biology students and teachers from twelve high schools in a north Texas urban school district of 76,000. Block classes had 11 to 18 percent less instructional time than traditional classes. Texas Biology I End-of-Course Examination achievement results for 3,195 students along with student and teacher surveys provided information on instructional activities, attitudes, and individualization. Using an analysis of variance at a j i< .01 the following results were found; student achievement was significantly different for each of the scheduled comparisons groups, test score means were not statistically significant between the scheduled comparison groups for different ethnic groups, economically disadvantaged students, and magnet students. No significant differences were found between the science learning activity index for each of the scheduled groups. Student response data when disaggregrated and reaggregrated into program groups found a statistically significant higher index of science activity at a p. < .01 for magnet students when compared to both the regular and honor students. Regular program students had a significantly higher index of individualization than honors program students. Accelerated and rotating block classes were found to hold a significantly more positive attitude about their science learning conditions than did the traditional students. These data suggest that during the first two years of block scheduling, the initial impact of block scheduling, where total time for science is reduced, results in lower student achievement scores when compared to traditionally scheduled classes. Yet, block scheduled student attitudes and perceptions about science learning are significantly more positive than the traditionally scheduled students.

high school students

block schedule

biology

Academic achievement.

Schedules, School.

Block scheduling (Education)

Percepção e aprendizagem no Museu de Zoologia: uma análise das conversas dos visitantes / Perception and Learning in the Museum of Zoology

Campos, Natalia Ferreira

01 November 2013

Este trabalho apresenta uma análise de aspectos da aprendizagem presentes nas conversas de visitantes adultos em uma exposição de zoologia. Adotamos a perspectiva sociocultural de aprendizagem e desenvolvimento de Vigotski (2009), segundo a qual o uso da linguagem é entendido como forma de compartilhar e desenvolver conhecimentos conjuntamente, mas também como ferramenta que orienta os processos psicológicos internos do indivíduo. Nesse sentido exploramos o processo cognitivo de percepção verbalizada, ou seja, mediada pela linguagem (VIGOTSKI, 2009; LURIA, 1970), além da aprendizagem colaborativa entre pares (MERCER, 2000). Nosso objetivo foi analisar como a linguagem verbalizada é utilizada na interação para qualificar e ampliar as percepções sobre os elementos da exposição e para construir significados conjuntamente sobre os objetos e conteúdos apresentados. Para isso, buscamos caracterizar as conversas dos sujeitos ao longo da exposição por meio da análise das operações epistêmicas realizadas na fala e também das formas de interação como caracterizadas por Mercer (2000) (conversas acumulativas, disputativas e exploratórias). As operações epistêmicas foram organizadas em três grupos: operações dirigidas pela percepção; operações de conexão com conhecimentos e experiências; e operações de maior elaboração conceitual. Nossos sujeitos foram adultos, integrantes do ensino médio na modalidade Educação de Jovens e Adultos, visitando em duplas a exposição Fauna da América do Sul, que é centrada na apresentação de animais preservados e dioramas de ambientes naturais, do Museu de Zoologia da Universidade de São Paulo, em agosto de 2011. Observou-se que a maior parte das conversas se desenvolveu de forma colaborativa para aprendizagem, em geral com construção positiva, mas não crítica, dos parceiros sobre as falas uns dos outros (conversas acumulativas), sendo raras as conversas centradas na argumentação de pontos divergentes (exploratórias). Durante as visitas as conversas foram majoritariamente centradas em elementos da exposição, indicando a atratividade dos objetos. Por meio das operações epistêmicas de Nomeação, Apontamento, Afetividade e Caracterização os sujeitos direcionaram a atenção dos parceiros, qualificaram e compartilharam percepções, atuando na construção conjunta de significados para os objetos; dentre essas se ressalta a importância da Nomeação dos objetos para os visitantes, que promoveu em algumas ocasiões discussões e um engajamento mais profundo na exposição. Também observamos, porém com menor ocorrência, as operações de Conexão com o conhecimento, Suposição e Explicação que indicavam conversas de maior elaboração conceitual. Ressalta-se, entretanto, que as conversas mais elaboradas em geral apresentaram maior articulação das operações epistêmicas, incluindo sobreposições, como por exemplo, no caso de Explicações constituídas por Conexões com o conhecimento ou Caracterizações, o que indica a importância das operações dirigidas pela percepção para as operações mais elaboradas conceitualmente. Os questionamentos também apresentaram papel relevante na promoção de operações epistêmicas. As conversas mais elaboradas foram desenvolvidas tanto em função da percepção dos objetos, como por demandas da própria conversa, apontando a relevância da experiência concreta com os objetos e dos aspectos da interação social para a aprendizagem. Esperamos que este estudo contribua para a compreensão do papel educativo de exposições, e para a compreensão de como visitantes adultos compartilham percepções, negociam e constroem significados relacionados aos conhecimentos e objetos musealizados. / This study presents an analysis of aspects of learning through the conversations of adult visitors at an exhibition of zoology. We adopt the sociocultural perspective of learning and development of Vygotsky (2009), according to which the use of language is understood as a way to share and develop knowledge together, but also as a tool that guides the internal psychological processes of the individual. Accordingly, we explore the cognitive process of perception verbalized, i.e., mediated by language (Vygotsky, 2009; LURIA, 1970), and the collaborative learning among peers (Mercer, 2000). Our goal was to analyze how language is used in the voiced interaction to qualify and expand perceptions of the elements of the exhibition and to jointly construct meaning about objects and contents. For this, we seek to characterize the conversations of the subjects throughout the exhibition, through the analysis of epistemic operations performed in speech and also the forms of interaction as characterized by Mercer (2000) (cumulative, disputational and exploratory talk). Epistemic operations were organized into three groups: operations guided by perception; operations connecting to knowledge and experiences; and operations of greater conceptual elaboration. Our subjects were adults, members of school in the modality of Youth and Adult Education, visiting in pairs the exhibition Fauna of South America, which was focused on the presentation of preserved animals and habitat dioramas, at the Museum of Zoology, University of São Paulo, in August 2011. It was observed that most of the conversations developed collaboratively to learning, often with partners building positively, but uncritically, on what the other has said (cumulative talk), being rare conversations centered in arguing divergent points (exploratory talk). During the visits, the conversations were mostly focused on elements of the display, indicating the attractiveness of objects. Through the epistemic operations of Naming, Pointing, Affectivity and Characterization subjects directed the attention of partners, qualified and shared perceptions, acting on the joint construction of meanings about objects. Among these stands out the importance of Naming objects for visitors, that has promoted discussions on some occasions and deeper engagement in the exhibition. We also observed, but with lower occurrence, the operations of Knowledge-connection, Supposition and Explanation, which indicated talks with greater conceptual elaboration. It is noteworthy, however, that more elaborated conversations generally showed greater articulation of epistemic operations, including overlapping, such as in the case of Explanations constituted by Knowledge- connections or Characterizations, which indicates the importance of operations guided by perception for operations of greater conceptual elaboration. Questions also had an important role in promoting epistemic operations. Operations of greater conceptual elaboration were developed as both a function of the perception of objects as per demands of conversation itself, indicating the relevance of concrete experience with objects and aspects of social interaction for learning. We hope that this study may contribute to understanding the role of educational exhibits, and to understanding how adult visitors share perceptions, negotiate and construct meanings related to musealized knowledge and objects.

Aprendizagem colaborativa

Biologia (estudo e ensino)

Biology (study and teaching)

Collaborative learning

Conhecimento compartilhado

Educação em museus

Language and cognition

Learning

Linguagem e cognição

Museum education

Percepção

Perception

Shared knowledge

A study of the environmental education ideologies in the newly implemented Hong Kong Certificate of Education Examination (HKCEE)biology and geography curricula and their expression in textbooks

Hui, She-kwan., 許書坤.

January 2004

published_or_final_version / abstract / toc / Education / Master / Master of Education

ESL students learning biology : the role of language and social interactions

Jaipal, Kamini

05 1900

This study explored three aspects related to ESL students in a mainstream grade 11 biology classroom: 1) the nature of students' participation in classroom activities, 2) the factors that enhanced or constrained ESL students' engagement in social interactions, and 3) the role of language in the learning of science. Ten ESL students were observed over an eight-month period in this biology classroom. Data were collected using qualitative research methods such as participant observation, audio-recordings of lessons, field notes, semi-structured interviews, short lesson recall interviews and students' written work. The study was framed within sociocultural perspectives, particularly the social constructivist perspectives of Vygotsky (1962,1978) and Wertsch (1991). Data were analysed with respect to the three research aspects. Firstly, the findings showed that ESL students' preferred and exhibited a variety of participation practices that ranged from personal-individual to socio-interactive in nature. Both personal-individual and socio-interactive practices appeared to support science and language learning. Secondly, the findings indicated that ESL students' engagement in classroom social interactions was most likely influenced by the complex interactions between a number of competing factors at the individual, interpersonal and community/cultural levels (Rogoff, Radziszewska, & Masiello, 1995). In this study, six factors that appeared to enhance or constrain ESL students' engagement in classroom social interactions were identified. These factors were socio-cultural factors, prior classroom practice, teaching practices, affective factors, English language proficiency, and participation in the research project. Thirdly, the findings indicated that language played a significant mediational role in ESL students' learning of science. The data revealed that the learning of science terms and concepts can be explained by a functional model of language that includes: 1) the use of discourse to construct meanings, 2) multiple semiotic representations of the thing/process, and 3) constructing taxonomies and ways of reasoning. Other important findings were: talking about language is integral to biology teaching and learning, ESL students' prior knowledge of everyday words does not necessarily help them interpret written questions on worksheets, and ESL students' prior knowledge of concepts in their first language does not necessarily support concept learning in the second language.

Return to basic science in undergraduate medical education : its effects on learning, attitudes and organization

Patel, Vimla L.

January 1980

No description available.

McGill University. Faculty of Medicine.

Biochemistry students' difficulties with the symbolic and visual language used in molecular biology.

Gupthar, Abindra Supersad.

January 2007

This study reports on recurring difficulties experienced by undergraduate students with respect to understanding and interpretation of certain symbolism, nomenclature, terminology, shorthand notation, models and other visual representations employed in the field of Molecular Biology to communicate information. Based on teaching experience and guidelines set out by a four-level methodological framework, data on various topic-related difficulties was obtained by inductive analyses of students’ written responses to specifically designed, free-response and focused probes. In addition, interviews, think-aloud exercises and student-generated diagrams were also used to collect information. Both unanticipated and recurring difficulties were compared with scientifically correct propositional knowledge, categorized and subsequently classified. Students were adept at providing the meaning of the symbol “Δ” in various scientific contexts; however, some failed to recognize its use to depict the deletion of a leucine biosynthesis gene in the form, Δ leu. “Hazard to leucine”, “change to leucine” and “abbreviation for isoleucine” were some of the erroneous interpretations of this polysemic symbol. Investigations on these definitions suggest a constructivist approach to knowledge construction and the inappropriate transfer of knowledge from prior mental schemata. The symbol, “::”, was poorly differentiated by students in its use to indicate gene integration or transposition and in tandem gene fusion. Idiosyncratic perceptions emerged suggesting that it is, for example, a proteinaceous component linking genes in a chromosome or the centromere itself associated with the mitotic spindle or “electrons” between genes in the same way that it is symbolically shown in Lewis dot diagrams which illustrate covalent bonding between atoms. In an oligonucleotide shorthand notation, some students used valency to differentiate the phosphite trivalent form of the phosphorus atom from the pentavalent phosphodiester group, yet the concept of valency was poorly understood. By virtue of the visual form of a shorthand notation of the 3,5 phosphodiester link in DNA, the valency was incorrectly read. VSEPR theory and the Octet Rule were misunderstood or forgotten when trying to explain the valency of the phosphorus atom in synthetic oligonucleotide intermediates. Plasmid functional domains were generally well-understood although restriction mapping appeared to be a cognitively demanding task. Rote learning and substitution of definitions were evident in the explanation of promoter and operator functions. The concept of gene expression posed difficulties to many students who believed that genes contain the entity they encode. Transcription and translation of in tandem gene fusions were poorly explained by some students as was the effect of plasmid conformation on transformation and gene expression. With regard to the selection of transformants or the hybridoma, some students could not engage in reasoning or lateral thinking as protoconcepts and domain-specific information were poorly understood. A failure to integrate and reason with factual information on phenotypic traits, media components and biochemical pathways were evident in written and oral presentations. DNA-strand nomenclature and associated function were problematic to some students as they failed to differentiate coding strand from template strand and were prone to interchange the labelling of these. A substitution of labels with those characterizing DNA replication intermediates demonstrated erroneous information transfer. DNA replication models posed difficulties integrating molecular mechanisms and detail with line drawings, coupled with inaccurate illustrations of sequential replication features. Finally, a remediation model is presented, demonstrating a shift in assessment score dispersion from a range of 0 - 4.5 to 4 - 9 when learners are guided metacognitively to work with domain-specific or critical knowledge from an information bank. The present work shows that varied forms of symbolism can present students with complex learning difficulties as the underlying information depicted by these is understood in a superficial way. It is imperative that future studies be focused on the standardization of symbol use, perhaps governed by convention that determines the manner in which threshold information is disseminated on symbol use, coupled by innovative teaching strategies which facilitate an improved understanding of the use of symbolic representations in Molecular Biology. As Molecular Biology advances, it is likely that experts will continue to use new and diverse forms of symbolic representations to explain their findings. The explanation of futuristic Science is likely to develop a symbolic language that will impose great teaching challenges and unimaginable learning difficulties to new generation teachers and learners, respectively. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.

Signs and symbols.

Learning.

Theses--Biochemistry.

Voice, disability and inclusion: a case study of biology learners with cerebral palsy.

Johannes, Eleanor M

January 2006

This study attempted to ascertain whether the under-representation of black, disadvantaged learners with cerebral palsy in biology and related careers is linked in any way to the method and content of teaching and learning in special education. In addition this study also attempted to identify and uncover the barriers that prevent learners with cerebral palsy from pursuing careers in science and technology related professions.

Inclusive education. South Africa.

Implementation of environmental learning in the NSSC biology curriculum component: a case study of Namibia

Tshiningayamwe, Sirkka Alina Nambashusan

January 2012

In the context of ecological crisis and environmental deterioration, teaching about environmental issues and the preservation of the world’s environment has become increasingly important across the globe (Chi-chung Ko & Chi-kin Lee, 2003). Of the various subjects taught in secondary schools, Science is often perceived as one that can make a significant contribution to environmental education. It is in this light that the study has looked at how Grade 11 and 12 Biology teachers in the Namibian context implement Environmental Learning (EL). This study was constituted as a case study of two schools in Windhoek, in the Khomas region. The study investigated the implementation of EL in the Biology curriculum focusing on the constraints and enabling factors influencing the implementation. This study employed qualitative methods, specifically semi-structured interviews, classroom observations and document analysis in its investigation of EL implementation. Purposive sampling was done and piloting of interview and observation schedules was used to refine the schedules. Ethical issues were taken into consideration throughout the study. The key findings from the study are as follows: - Teachers’ knowledge and interest in environmental education influence how teachers facilitate EL; - There is a mismatch between EL theories and practice; - Teaching of EL is mainly informed by the syllabus and not other curriculum documents, - Current assessment policy and practice impact on EL; and - Possibilities exist for improving EL in Namibia’s Biology curriculum. These key findings have been used to make recommendations for the study which are as follows: - Strengthen the subject content and interest of teachers; - There should be a match between EL theories and practice; - Reorient curriculum documents and other learning support materials used for EL; - Change in assessment approaches; and - Translate constraints of EL into enablers. The study concludes by calling for further research into EL pedagogies. This can be used to improve EL implementation in the region where the study was situated.

Biology -- Curricula