Geological education in the United States during the late ninteenth century /

Boekenkamp, Richard Paul

January 1974

No description available.

Education

Geology--Study and teaching

An analysis of geology curricula in secondary and tertiary education / Ian Clark.

Clark, I. F. (Ian F.)

January 1996

Errata is tipped in after contents. / Bibliography: p. 249-264. / iv, 264 p. : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Geology, 1997?

Geology Study and teaching (Higher)

Geology Study and teaching (Secondary)

Geology Study and teaching Australia.

Twelve boxes of gravel and plastic fossils : creating a Geology 12 programme in a new school

Williams, Erica Toni

05 1900

This thesis is a record of two research strands that have been intertwined during the development over a four year period of a classroom curriculum for an elective Geology 12 course in a new school. It discusses traditional belief systems identified as common to the practice of senior science and how one teacher wanted to challenge those beliefs to produce a working curriculum that would focus on long term learning within the framework of an externally prescribed curriculum and a provincially mandated external final exam that counted for 40% of the students mark. The teacher, working on her own in a portable for the first two years was in the unenviable position of being supplied with textbooks with a foreign focus and with supplies that as the title suggests were of little use over the long term. By Christmas of the first year a number of major problems had been identified, these problems falling into two major categories - developing strategies for long term learning that, within the operational constraints of grade 12, would enable the students to take far more responsibility for their own learning, and second, developing a science research programme for acquiring the resources, principally through field work, that were identified as being necessary for the programme. The major concerns within these two problem areas were identified and a four year timeline was developed for implementation. On the pedagogical side, after examining some of the literature on learning, particularly that around the area of cooperative learning that has had a substantial focus in recent years in a number of local school districts, reflecting on what worked for me in terms of my practice over 27 years of science teaching, I chose to focus on the Project for Enhancing Effective Learning (PEEL), out of Monash University, Australia as my working framework for learning. The process of developing this classroom curriculum was framed as a qualitative individual action research project over time as, within my professional life, there were no other teachers involved with the geology programme within the school, and at the same time being in a portable isolated me from my peers-l had no choice but to be self contained and self reliant. The pedagogical side of the process saw the evolvement of a programme that differed significantly in many ways from traditional senior science teaching. This is not to say that many teachers are not already reflecting on and trying to improve practice but for most of them it is through quiet reflection, discourse and evolution much as it had been for me until this time. For me this was the first time in my career that I was able to develop a programme from the very beginning. The thesis details the development of a multi-level learning strategy with an underlying theme being the development of more metacognitive students. The programme entails the identification of prior learning, reflective and collaborative practice, multiple processings of content and skills, peer assessment, and semi-formal reflective assessment. For many students, particularly during my first two years, most of these strategies were completely foreign to their cultural expectations of the teacher's role as dispenser of information to be regurgitated back through formal assessment. During the last two years these challenges to student thinking have been far less dramatic as I am now a known quantity in the school and the students taking my course expect to be working at becoming more independent long term learners. The programme is also built on the premise that for geology, relevant hands-on activities are an integral part of the learning process, and this other research strand is also explored and described. This is the story of the two research strands by which a semi-independent multi-level learning environment has been developed and implemented with a high degree of hands-on activities. Although a formal assessment of the programme is almost impossible to do within the constraints of my working environment, the personal feedback that I receive from the students, parents and colleagues indicates that it has been successful.

Active learning

Independent study

Development and evaluation of an educational software tool for geotechnical engineering

Wyatt, Timothy Robert

05 1900

No description available.

Soil mechanics Data processing

Engineering geology Study and teaching

Student Understanding of Groundwater Concepts in Two Undergraduate Geology Courses

Martin, Danielle M.

January 2008

No description available.

Geology -- Study and teaching (Higher)

Groundwater

Science -- Study and teaching (Higher)

Contribuições dos conteúdos de Geologia para a Licenciatura em Geografia / Contributions of topics of Geology to the Geography Teaching Licensure Course

Scortegagna, Adalberto

15 August 2018

Orientador: Oscar Braz Mendonza Negrão / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Geociências / Made available in DSpace on 2018-08-15T06:18:15Z (GMT). No. of bitstreams: 1 Scortegagna_Adalberto_D.pdf: 7353931 bytes, checksum: 4556d3ef5239709860fb5ae5e028ba45 (MD5) Previous issue date: 2009 / Resumo: O trabalho busca examinar de que forma os conteúdos geológicos permeiam o curso de Licenciatura em Geografia da Universidade Federal do Paraná (UFPR), verificando a adequação e suficiência desses conteúdos na disciplina de Geologia Introdutória (GI), suas possíveis articulações com as demais disciplinas do curso e a existência de compatibilidade entre o que é trabalhado na disciplina de GI e a necessidade desse conhecimento nas demais disciplinas. A pesquisa se fundamentou na análise de ementas e programas de diversas disciplinas, bem como no acompanhamento, gravação, transcrição e análise dos conteúdos desenvolvidos nas aulas da disciplina de GI. A análise dos dados possibilitou caracterizar a forma como os conteúdos geológicos estão sendo trabalhados nessa disciplina e identificar como se fazem presentes em várias outras disciplinas do curso. Constatou-se, também, que a disciplina de GI segue um modelo tradicional no ensino de geologia e que há certo desequilíbrio na atribuição de carga horária aos conteúdos trabalhados. Destaca-se, entre outros aspectos, que o conteúdo "minerais e rochas" é trabalhado de forma aprofundada e abrange metade da carga horária da disciplina. Outros conteúdos relevantes para a geografia, como "Tectônica de Placas" e "Tempo Geológico" são trabalhados de forma sucinta, dificultando as interligações necessárias com os conteúdos das demais disciplinas. A análise demonstrou ainda que, apesar de sua importância como disciplina base do domínio da geografia física, a disciplina de GI tem uma carga horária reduzida, aquém de sua real necessidade. Pôde-se, então, inferir que os conteúdos geológicos devem ser ampliados e reorganizados, priorizando-se conteúdos relevantes para o curso de Geografia. Dessa forma, os conteúdos geológicos poderiam desempenhar seu papel de destaque na geografia, atendendo às necessidades do curso, o que teria reflexos na formação do professor, em especial na geografia escolar e, consequentemente, na interpretação do espaço geográfico. A pesquisa propiciou também a elaboração de um fluxograma, demonstrando como determinados conteúdos da disciplina de GI se refletem em outras disciplinas do curso, e poderia servir de modelo para outros cursos de graduação em Geografia, com o objetivo de constatar a inter-relação entre as diversas disciplinas, evitando assim a repetição ou a ausência de conteúdos relevantes na formação desse profissional / Abstract: This paper aims at examining how topics of geology permeate the Geography Teaching Licensure Course in the Universidade Federal do Paraná (UFPR), assessing the adequacy and sufficiency of such topics in the subject of Introductory Geology (IG), its possible relations to the other subjects of the course, and the compatibility between what is studied in IG and the need of this knowledge in other subjects. The research was based on the analysis of overviews and programmes of many different subjects, as well as on the monitoring, taping, transcription and analysis of topics developed during IG classes. With this data, it was made able to describe how geology is being studied in this subject and to identify the way the study of geology is present at other subjects of the course. It was also noted that IG uses a traditional model of geology teaching and that its credit hours are unevenly distributed among topics; the topic "minerals and rocks", for instance, is more widely developed and takes up a half of the credit hours of the subject. Other topics relevant to Geography, such as "Plate tectonics" and "Geologic time" are briefly developed, making it hard to establish necessary interconnections with the topics of other subjects. The analysis has also shown that, despite its importance as a core subject in physical geography, IG has a small amount of credit hours, not up to par to its real necessity. It can be inferred that geologic topics should be widened and reorganized, prioritizing topics relevant to the Geography course. This way, the geologic topics could play the lead role in Geography, attending the needs of the course, which would reflect on the teacher's training, especially in scholastic Geography, and consequently, on the interpretation of the geographic space. The research was used to develop a flowchart that depicted how topics of IG are related to other subjects of the course. The flowchart could also be used by other Geography courses, with the objective of noting the interconnection between the many subjects, thus avoiding the repetition or lack of relevant topics in the training of this professional / Doutorado / Doutor em Ciências

Geologia - Estudo e ensino (Superior)

Geology - Study and teaching (Higher)

Twelve boxes of gravel and plastic fossils : creating a Geology 12 programme in a new school

Williams, Erica Toni

05 1900

This thesis is a record of two research strands that have been intertwined during the development over a four year period of a classroom curriculum for an elective Geology 12 course in a new school. It discusses traditional belief systems identified as common to the practice of senior science and how one teacher wanted to challenge those beliefs to produce a working curriculum that would focus on long term learning within the framework of an externally prescribed curriculum and a provincially mandated external final exam that counted for 40% of the students mark. The teacher, working on her own in a portable for the first two years was in the unenviable position of being supplied with textbooks with a foreign focus and with supplies that as the title suggests were of little use over the long term. By Christmas of the first year a number of major problems had been identified, these problems falling into two major categories - developing strategies for long term learning that, within the operational constraints of grade 12, would enable the students to take far more responsibility for their own learning, and second, developing a science research programme for acquiring the resources, principally through field work, that were identified as being necessary for the programme. The major concerns within these two problem areas were identified and a four year timeline was developed for implementation. On the pedagogical side, after examining some of the literature on learning, particularly that around the area of cooperative learning that has had a substantial focus in recent years in a number of local school districts, reflecting on what worked for me in terms of my practice over 27 years of science teaching, I chose to focus on the Project for Enhancing Effective Learning (PEEL), out of Monash University, Australia as my working framework for learning. The process of developing this classroom curriculum was framed as a qualitative individual action research project over time as, within my professional life, there were no other teachers involved with the geology programme within the school, and at the same time being in a portable isolated me from my peers-l had no choice but to be self contained and self reliant. The pedagogical side of the process saw the evolvement of a programme that differed significantly in many ways from traditional senior science teaching. This is not to say that many teachers are not already reflecting on and trying to improve practice but for most of them it is through quiet reflection, discourse and evolution much as it had been for me until this time. For me this was the first time in my career that I was able to develop a programme from the very beginning. The thesis details the development of a multi-level learning strategy with an underlying theme being the development of more metacognitive students. The programme entails the identification of prior learning, reflective and collaborative practice, multiple processings of content and skills, peer assessment, and semi-formal reflective assessment. For many students, particularly during my first two years, most of these strategies were completely foreign to their cultural expectations of the teacher's role as dispenser of information to be regurgitated back through formal assessment. During the last two years these challenges to student thinking have been far less dramatic as I am now a known quantity in the school and the students taking my course expect to be working at becoming more independent long term learners. The programme is also built on the premise that for geology, relevant hands-on activities are an integral part of the learning process, and this other research strand is also explored and described. This is the story of the two research strands by which a semi-independent multi-level learning environment has been developed and implemented with a high degree of hands-on activities. Although a formal assessment of the programme is almost impossible to do within the constraints of my working environment, the personal feedback that I receive from the students, parents and colleagues indicates that it has been successful. / Education, Faculty of / Curriculum and Pedagogy (EDCP), Department of / Graduate

Active learning

Independent study

Designing and Using Virtual Field Environments to Enhance and Extend Field Experience in Professional Development Programs in Geology for K-12 Teachers

Granshaw, Frank D.

01 January 2011

Virtual reality (VR) is increasingly used to acquaint geoscience novices with some of the observation, data gathering, and problem solving done in actual field situations by geoscientists. VR environments in a variety of forms are used to prepare students for doing geologic fieldwork, as well as to provide proxies for such experience when venturing into the field is not possible. However, despite increased use of VR for these purposes, there is little research on how students learn using these environments, how using them impacts student field experience, or what constitutes effective design in light of emerging theories of geocognition. To address these questions, I investigated the design and use of a virtual reality environment in a professional development program for middle school Earth science teachers called Teachers on the Leading Edge (TOTLE). This environment, called a virtual field environment, or VFE, was based largely on the field sites visited by the participants during summer workshops. It was designed as a tool to prepare the participants for workshop field activities and as a vehicle for taking elements of that experience back to their students. I assessed how effectively the VFE accomplished these goals using a quasi-experimental, mixed method study that involved a series of teaching experiments, interviews, participant surveys, and focus groups. The principle conclusions reached in this study are as follows: 1. In a field trip orientation experiment involving 35 middle school teachers, 90.6% of the participants stated a preference for VFE enhanced orientation over an alternative orientation that used photographs and static maps to complete a practice field activity. When asked about how the VFE prepared them for their field experience, the participants ranked it as most helpful for visualize the location and geography of the field sites. They ranked it lower for helping them visualize structural and geomorphic patterns, and ranked it as least helpful in developing conceptual links between the geology at individual field sites and regional geologic structure and processes. 2. According to workshop follow-up surveys, 23% of the first year participants and 40% of the second year participants used the VFE with their own classes. While factors cited for not using the VFE provided some information relevant to the larger question of technology use in classroom, individual reports of how teachers used the VFE in their classes provided limited information about student interaction with the virtual environment. 3. Interviews with 85 community college students (novices), geologists (experts), and middle school Earth science instructors (teachers) revealed no significant difference in the features of interest selected from a virtual field site. Though experts tended to ask slightly more complicated and higher order questions than the other two groups, there was no statistically significant difference in the questions asked about these features in regards to topical characteristics, cognitive outcome, or cognitive type. In addition to some insights into cognitive differences between these groups, the interviews also provided information about visual selection, perception, and processing which are valuable to VFE scene design.

The longitudinal treatment and structure of plate tectonics in introductory college-level physical geology textbooks : 1974-2005

Fowler, Philip A.

January 2005

The objective of this study was to determine if trends were present in the longitudinal treatment of concepts of plate tectonics in introductory college-level physical geology textbooks. In addition, a method was designed to convey the structure of these concepts of plate tectonics by determining the location in the textbook where they occur.Eighteen textbooks were selected from the time period of 1975 through 2004. The total narrative area was determined by measuring the height and width of each column of text in each textbook. Individual concepts of plate tectonics were determined using the constant comparative method. Nine concepts were identified. The treatment of each concept was expressed as a concept's percentage of the textbook's total narrative area. The structure of plate tectonics in each textbook was determined by creating scatterplots and pie graphs of the location within the text and the area devoted to each concept. Furthermore, a measure of the structure of the textbook over the study period was determined by comparing the proportion of chapters containing concepts of plate tectonics with the publication date.A strong positive correlation (r=.638) was found between the treatment of the theory of plate tectonics and the publication date of the textbook. This correlation was significant to the 0.01 level. Two of the nine identified concepts of plate tectonics were also found to have significant correlations.Similarly, a strong positive correlation was found between the proportion of chapters containing concepts of plate tectonics and the publication date. Thus, concepts of plate tectonics are found in more chapters in textbooks published during the latter parts of the study period.A concern arising from this study is the treatment of the concept identified as "The evidence for and the development of plate tectonics." This is the only identified concept of plate tectonics that showed a marked decrease during the study period. Furthermore, this concept corresponds with other studies that found many of America's textbooks reporting the end results of science while omitting the nature of science. / Department of Geology

Visual learning through Hypermedia

Walker, Catherine Livesay

01 January 1996

No description available.

Visual learning

Hypermedia

Geology -- Study and teaching (Higher)

Computer-assisted instruction

Educational Methods