Elementary and secondary science teachers negotiation of controversial science content: The relationships among prior conception appropriation, thinking disposition, and learning about geologic time

Roberson, James Harold

01 May 2011

A major component of the values people place on science and their attitude toward it is their openness to new ideas or overall open-mindedness. An individual’s values and attitudes become integrally connected to their prior knowledge and conceptions regarding science and science content. Sometimes the nature of a natural phenomenon and the scientific explanation for the phenomenon is controversial. A controversial scientific concept is one that evokes emotion and forces individuals to assess the values associated with this content and make assessments of their attitudes toward it. This is especially true during learning. The purpose of this study was to provide evidence on how prior knowledge and existing conceptions are related to open-mindedness when learning science content that is regarded as controversial. The participants for this study consisted of 7 elementary science teachers and 8 secondary science teachers. Data collected for the study included the determination of how individuals assessed and used their prior/existing conceptions when learning controversial science content based on individual interviews, an individual’s level of open-mindedness as measured by the Actively Open-minded Thinking scale (AOT) and determined through the interviews, and the assessment of the change in an individual’s level of knowledge regarding geologic time as measured by the Geoscience Concept Inventory (GCI). The investigation consisted of multiple case studies analyzed within cases and across cases. The teachers’ use of their prior conceptions was determined through the coding of interviews based on the four appropriation modes of Integration, Differentiation, Exchange, and Bridging. Results from the interview data showed that 53% of the teachers differentiated their existing conceptions from new geologic time conceptions, while 47% integrated new conceptions with their prior conceptions. In addition, 40% of the teachers exhibited a bimodal appropriation of their existing conceptions. Bridging and exchange were the secondary appropriation modes observed among bimodal appropriators. No relationships were found between the teachers’ thinking disposition (open-mindedness) and their level of geologic time knowledge, nor where there any relationships found between the teachers’ prior conception appropriation and their geologic time knowledge or their appropriation and thinking disposition.

conceptual change

prior knowledge

geologic time

learning

Education

Science and Mathematics Education

Occurrence and Stability of Glaciations in Geologic Time

Zhuang, Kelin

2010 August 1900

Earth is characterized by episodes of glaciations and periods of minimal or no ice through geologic time. Using the linear energy balance model (EBM), nonlinear EBM with empirical ice sheet schemes, the general circulation model coupled with an ice sheet model, this study investigates the occurrence and stability of glaciations in geologic time. The simulations since the last glacial maximum (LGM) suggest that the summertime thawline of ice sheets conforms closely to the equatorward edge of the ice sheets and implies the relative stability toward deglaciation. CO2 levels are indispensable in controlling the initiation of ice sheet in the Cretaceous. At low CO2 levels, ice sheets exist in all periods no matter LGM or the last interglacial (LIG) orbital elements; however, at high CO2 levels ice sheets rarely exist. The simulations agree well with recent geological evidence of the hysteresis of glaciations in the Permo-Carboniferous. Gondwanaland reached its glacial maximum when CO2 level was roughly the same or slightly higher than the preindustrial value. With a further increase of CO2, deglaciation dominates and results in an ice free state. Again, if CO2 decreased to the present level, Gondwanaland would be glaciated once more and start a new cycle of glaciation and deglaciation. Simulations from five paleogeography maps in Gondwanaland with a suite of CO2 levels and different orbital elements reveal that paleogeography, CO2 levels and the Milankovitch cycles all contribute to the glaciations of Gondwanaland. This study shows that orbital elements alone are insufficient to account for the evolution of ice sheets. Net radiative forcing caused by greenhouse gases, such as CO2 and solar constant change are the primary drivers to glacial inception or demise. Continental geography, CO2 levels, solar constant change, and the Milankovitch cycles complicate the glacial history of Earth.

Glaciations in geologic time

Energy balance model

Last glacial maximum

Gondwanaland

Permo-Carboniferous

Cretaceous

O tempo geológico no ensino fundamental e médio: os estudantes e os livros didáticos / The geological time in elementary and high school: students and textbooks

Oliveira, Jeferson Botelho de

04 April 2006

A análise das colunas geológicas consultadas a partir de diferentes livros didáticos, possibilitou compreender como o tempo geológico aparece no ensino de evolução, junto à disciplina de biologia do ensino médio e na disciplina de geografia do ensino fundamental, enfocando a origem e as transformações do relevo terrestre ao longo das eras geológicas. Foi possível observar inúmeras informações heterogêneas e problemáticas didáticas, revelando problemas de ordem estrutural e cognitiva, que podem prejudicar professores e alunos no entendimento do tempo profundo, apresentando eventos desorganizados ou omitidos. Procurou-se ressaltar os principais marcos da construção da coluna geológica assim como os principais personagens envolvidos; citando James Hutton, John Playfair, Charles Lyell, Charles Darwin. Responsáveis estes parcialmente pelas modificações do pensamento filosófico-científico da Europa durante os séculos XVIII e XIX, destituindo o antigo pragmatismo dominante da crença de um planeta com 6000 anos de idade. As escalas temporais envolvidas como o mega-intervalo Pré-Cambriano, com 4,0 bilhões de anos de duração ou representando cerca de 85% do tempo geológico, muitas vezes foi apresentado graficamente diminuído ou omitido nas colunas geológicas analisadas. Detectou-se também problemas gráficos visuais com o Eon Fanerozóico, exibindo superdimensionamento das eras e períodos sem nenhuma justificativa aparente, e ressaltando com freqüência, graficamente, a Era Cenozóica com distinto grau de importância, apesar desta apresentar o menor intervalo de tempo registrado na coluna geológica, aproximadamente 65 milhões de anos. A compreensão cognitiva do tempo geológico é complexa e os livros didáticos pouco ajudam seu aprendizado. As evidências fósseis são tomadas como decisivas para a compreensão do tempo geológico. Como parte do trabalho, foram analisadas entrevistas com crianças e adolescentes moradores de jazigos fossilíferos, a fim de compreender como as evidências que lhes são próximas possivelmente influenciaram as idéias que elaboravam sobre o passado do planeta. O trabalho termina discutindo implicações didáticas de diferentes perspectivas. / The analysis of the geologic column consulted from different didatic books hás made possible comprehend how the geologic time appears in the evolution teaching, as a discipline of the biology in the high school, and in the discipline of geography in the school focus in the origin and the transformation of the earth through the geologic era. It was possible to observe uncountable heterogeneous information, and didatic problems, revealing troubles of structural and cognitive order, which difficult teachers and students in the understanding of the deep time, introducing unordered and ommited events. It was highlighted the main steps of the construction of the geologic column as well as the characters involved: citing James Hutton, John Playfair, Charles Lyell, Charles Darwin. These were responsible by the changes of the cientific-filosofic thinking of the Europe during the XVIII and XIX, destroying the old pragmatism of the faith of a planet with 6000 years old. The temporal scales involved with the Pre-Cambrian mega interval, with 4.0 billion years or representing circa 85% of the geologic time, many times was presented graphically shorted or omitted in in the geologic columns revised. It has been detected too graphic troubles with the Eon Fanerozoic, showing over dimensioning of the era and periods without any real motive, and highligting frequently the Cenozoic Era with distinct degree of importance, however it has one of the shortest length in the geologic column, with about 65 million years. The cognitive comprehension of the geologic time is complex and the didatic books softly help your learning. The fossil evidence are considered decisive to the comprehension of the geologic time. As part of the work, it was analyzed some interviews with children and teenagers living near animals and plants fossils samples, to comprehend how the neighborhood evidence could had influence the ideas that made it about the planet past. The manuscript and discussing didatic implications, from different perspectives.

Coluna geológica

Entrevistas

Fossil record

Geologic column

Geologic time

Interviews

Livro didático

Registro fóssil

Tempo geológico

Textbook

O tempo geológico no ensino fundamental e médio: os estudantes e os livros didáticos / The geological time in elementary and high school: students and textbooks

Jeferson Botelho de Oliveira

04 April 2006

A análise das colunas geológicas consultadas a partir de diferentes livros didáticos, possibilitou compreender como o tempo geológico aparece no ensino de evolução, junto à disciplina de biologia do ensino médio e na disciplina de geografia do ensino fundamental, enfocando a origem e as transformações do relevo terrestre ao longo das eras geológicas. Foi possível observar inúmeras informações heterogêneas e problemáticas didáticas, revelando problemas de ordem estrutural e cognitiva, que podem prejudicar professores e alunos no entendimento do tempo profundo, apresentando eventos desorganizados ou omitidos. Procurou-se ressaltar os principais marcos da construção da coluna geológica assim como os principais personagens envolvidos; citando James Hutton, John Playfair, Charles Lyell, Charles Darwin. Responsáveis estes parcialmente pelas modificações do pensamento filosófico-científico da Europa durante os séculos XVIII e XIX, destituindo o antigo pragmatismo dominante da crença de um planeta com 6000 anos de idade. As escalas temporais envolvidas como o mega-intervalo Pré-Cambriano, com 4,0 bilhões de anos de duração ou representando cerca de 85% do tempo geológico, muitas vezes foi apresentado graficamente diminuído ou omitido nas colunas geológicas analisadas. Detectou-se também problemas gráficos visuais com o Eon Fanerozóico, exibindo superdimensionamento das eras e períodos sem nenhuma justificativa aparente, e ressaltando com freqüência, graficamente, a Era Cenozóica com distinto grau de importância, apesar desta apresentar o menor intervalo de tempo registrado na coluna geológica, aproximadamente 65 milhões de anos. A compreensão cognitiva do tempo geológico é complexa e os livros didáticos pouco ajudam seu aprendizado. As evidências fósseis são tomadas como decisivas para a compreensão do tempo geológico. Como parte do trabalho, foram analisadas entrevistas com crianças e adolescentes moradores de jazigos fossilíferos, a fim de compreender como as evidências que lhes são próximas possivelmente influenciaram as idéias que elaboravam sobre o passado do planeta. O trabalho termina discutindo implicações didáticas de diferentes perspectivas. / The analysis of the geologic column consulted from different didatic books hás made possible comprehend how the geologic time appears in the evolution teaching, as a discipline of the biology in the high school, and in the discipline of geography in the school focus in the origin and the transformation of the earth through the geologic era. It was possible to observe uncountable heterogeneous information, and didatic problems, revealing troubles of structural and cognitive order, which difficult teachers and students in the understanding of the deep time, introducing unordered and ommited events. It was highlighted the main steps of the construction of the geologic column as well as the characters involved: citing James Hutton, John Playfair, Charles Lyell, Charles Darwin. These were responsible by the changes of the cientific-filosofic thinking of the Europe during the XVIII and XIX, destroying the old pragmatism of the faith of a planet with 6000 years old. The temporal scales involved with the Pre-Cambrian mega interval, with 4.0 billion years or representing circa 85% of the geologic time, many times was presented graphically shorted or omitted in in the geologic columns revised. It has been detected too graphic troubles with the Eon Fanerozoic, showing over dimensioning of the era and periods without any real motive, and highligting frequently the Cenozoic Era with distinct degree of importance, however it has one of the shortest length in the geologic column, with about 65 million years. The cognitive comprehension of the geologic time is complex and the didatic books softly help your learning. The fossil evidence are considered decisive to the comprehension of the geologic time. As part of the work, it was analyzed some interviews with children and teenagers living near animals and plants fossils samples, to comprehend how the neighborhood evidence could had influence the ideas that made it about the planet past. The manuscript and discussing didatic implications, from different perspectives.

Coluna geológica

Entrevistas

Livro didático

Registro fóssil

Tempo geológico

Fossil record

Geologic column

Geologic time

Interviews

Textbook

Construction automatique d'images de pseudo-âges géologiques à partir d'images sismiques par minimisation d'énergie / Automatic construction of relative geologic time images from seismic images by energy minimization

Mounirou Arouna Lukman, Moctar

26 November 2018

A partir d’un ensemble de données interprétées et issues d’une analyse préalable par un opérateur expert (horizons, failles), l’objectif de la thèse est de proposer une segmentation d’une image sismique sous-jacente en parfaite cohérence avec les lois de la géologie. L’originalité de la démarche consistera à développer des techniques de segmentation d’images sismiques, entre autres basées sur des approches de type contours actifs, contraintes par des données interprétées en supplément de propriétés intrinsèques calculées par des procédés automatiques à partir de la donnée traitée sans nécessiter une quelconque supervision contrairement aux travaux existants. Un deuxième axe consistera à ordonnancer automatiquement les horizons (surfaces) interprétés et analyser finement chaque intervalle (le lieu existant entre deux horizons), en prenant en compte son contenu (amplitude, orientation, etc.). Tout cela aboutissant à la reconstruction du pseudo-temps géologique. / The objective of the thesis is to propose a segmentation of an underlying seismic image in perfect coherence with the results of a preliminary analysis by an expert (horizons, faults). laws of geology. The originality of the approach will be to develop techniques for segmenting seismic images, among others based on active contour type approaches, constrained by data interpreted in addition to intrinsic properties calculated by automatic processes from the data processed without requiring any supervision in contrast to existing work. A second axis will be to automatically schedule the horizons (surfaces) interpreted and to analyze each interval (the place between two horizons) finely, taking into account its content (amplitude, orientation, etc.). All this resulted in the reconstruction of the geological pseudo-time.

Images sismiques

Images de pseudo-Âges géologiques

Minimisation d'énergie

Régularisation

Fonctions de pénalisation

Algorithmes proximaux

Seismic images

Relative geologic time images

Energy functional minimization

Regularization

Penalty functions

Proximal algorithms

Conceptual Change: The Integration of Geologic Time into the Teaching of Evolution

Ramseyer, David L

15 December 2012

This study attempts to discern if geologic time is a threshold concept for student understanding of evolutionary theory. A threshold concept enables the learner to unpack other concepts because of its importance in thought construction. In this study three teachers and ten sections of biology were investigated from the same high school. Each teacher used the same activities, in the same sequence, and with identical evaluation methods. Students in the treatment group covered a unit on geologic time prior to completing course work on evolutionary theory. Student misconceptions in both control and treatment groups were assessed using a composite concept inventory administered post and prior to the study. Statistical analysis conducted revealed no statistical evidence to support the contention that the treatment method was more effective than traditional methods of teaching evolution. It was found that students agreed significantly more with evolution post study in both treatment and control groups.

conceptual change

preconceptions

naive conceptions

misconceptions

alternative conceptions

threshold concept

geologic time

deep time

evolution

concept inventory

best practices

science education

education

Conceptual change

Representations of Scale and Time: Reinterpreting Cinematic Conventions in Digital Animation to Create a Purposeful Visual Language

Heban, Thomas Edward

13 August 2015

No description available.

Design

Film Studies

Landscape Architecture

Fine Arts

digital animation

cinema

landscape mythology

computer animation

film

timescale

temporal scale

spatial scale

scale

cinematic conventions

parallel narratives

digital cinematography

language of cinema

geologic time

human time

visual language