Spelling suggestions: "subject:"cience education|curricula|breaching"" "subject:"cience education|curricula|creaching""
1 |
Teacher-student co-construction processes in biology: Strategies for developing mental models in large group discussionsNunez Oviedo, Maria Cecilia 01 January 2004 (has links)
The aim of this study was to describe co-construction processes in large group discussions. Co-construction, as used here, is a process by which the teacher and the students work together to construct and evaluate mental models of a target concept. Data were collected for an in-depth case study of a single teacher instructing middle school students with an innovative curriculum on human respiration. Data came from transcripts of video taped lessons, drawings, and pre- and post-test scores. Quantitative and qualitative analyses were conducted. In the quantitative analysis, differences in gains between one and two standard deviations in size were found between the pre- and post-test scores indicating that the students increased their understanding about human respiration. In the qualitative analysis, a generative exploratory method followed by a convergent coded method was conducted to examine teacher-student interaction patterns. The aim of this part was to determine how learning occurred by attempting to connect dialogue patterns with underlying cognitive processes. The main outcome of the study is a hypothesized model containing four layers of nested teaching strategies. Listed from large to small time scales these are: the Macro Cycle, the Co-construction Modes, the Micro Cycle, and the Teaching Tactics. The most intensive analysis focused on identifying and articulating the Co-construction Modes—Accretion Mode, Disconfirmation Mode, Modification Mode, Evolution Mode, and Competition Mode—and their relations to the other levels of the model. These modes can either describe the construction and evaluation of individual model elements or of entire models giving a total of ten modes. The frequency of these co-construction modes was then determined by coding, twenty-six hours of transcripts. The most frequent modes were the Accretion Mode and the Disconfirmation Mode. The teacher's and the students' contributions to the co-construction process were also examined. It was found that both the teacher and the students generated ideas in approximately equal proportion to build the models, that the teacher usually evaluated the ideas, and that both modified or disconfirmed the ideas. Thus the study is an attempt to develop a vocabulary for describing strategies that facilitate student model construction.
|
2 |
An investigation into the teaching of and curriculum development for inheritance and genetic diseases on the secondary school levelBridgforth, Betty Davis 01 January 1993 (has links)
Secondary school students are being inadequately prepared for an active understanding of genetic diseases. There is good evidence that students are being graduated out of high school, without even a basic knowledge of the more than two thousand genetic diseases. This work presents this evidence, as well as highlights some of the difficulties and challenges found in the teaching of genetics. This project is aimed at ascertaining how much secondary school level, life science and biology teachers know about genetic diseases. Also, by concentrating on four specific genetic diseases (Cystic Fibrosis; Tay-Sachs Disease; Sickle Cell Anemia; Thalassemia) that are representative of the racial and ethnic distribution in United States secondary schools, this study determines how much and to what degree, teachers are teaching about the subject. Twenty-six life science and biology teachers from the Greater Boston Area, were randomly chosen from the junior and senior high school science teachers that volunteered to participate. All responses from the interview which contained twenty-six questions, were recorded and scored as to accuracy. A Reliability Test was conducted using the process of "test and retest", to determine the test's coefficient of stability. Data was analyzed by a VAX/VMS using the STATA statistical analysis program. This research investigated four questions: (1) Are biology and life science secondary school teachers teaching the basic principles of genetic diseases? (2) Do biology and life science secondary school teachers know the basic principles of genetic diseases? (3) Are biology and life science secondary school teachers teaching the characteristics and mechanisms of the four specific genetic diseases--Cystic Fibrosis; Tay-Sachs Disease; Sickle Cell Anemia; Thalassemia? (4) Do biology and life science secondary school teachers, know and understand the characteristics and mechanisms of the four specific genetic diseases? Using the results of this study, a Genetic Disease Curriculum Strategy Format was developed. The purpose of this teaching manual is: (1) to increase the level of science teachers' knowledge and understanding of genetic diseases; (2) to enhance science teachers' instructional ability; (3) to supplement existing biology and life science curriculum; (4) to assist educators in writing new genetic diseases curriculum.
|
3 |
A study of the long term impact of an inquiry-based science program on student's attitudes towards science and interest in science careersGibson, Helen Lussier 01 January 1998 (has links)
One reason science enrichment programs were created was to address the underrepresentation of women and minorities in science. These programs were designed to increase underrepresented groups' interest in science and science careers. One attempt to increase students' interest in science was the Summer Science Exploration Program (SSEP). The SSEP was a two week, inquiry-based summer science camp offered by Hampshire College for students entering grades seven and eight. Students who participated were from three neighboring school districts in Western Massachusetts. The goal of the program was to stimulate greater interest in science and scientific careers among middle school students, in particular among females and students of color. A review of the literature of inquiry-based science programs revealed that the effect of inquiry-based programs on students' attitudes towards science is typically investigated shortly after the end of the treatment period. The findings from this study contribute to our understanding of the long-term impact of inquiry-based science enrichment programs on students' attitude towards science and their interest in science careers. The data collected consisted of quantitative survey data as well as qualitative data through case studies of selected participants from the sample population. This study was guided by the following questions: (1) What was the nature and extent of the impact of the Summer Science Exploration Program (SSEP) on students' attitudes towards science and interest in science careers, in particular among females and students of color? (2) What factors, if any, other than participation in SSEP impacted students' attitude towards science and interest in scientific careers? (3) In what other ways, if any, did the participants benefit from the program? Conclusions drawn from the data indicate that SSEP helped participants maintain a high level of interest in science. In contrast, students who applied but were not accepted showed a decrease in their attitude towards science and their interest in science careers over time, compared to the participants. The interviews suggested that students enjoyed the inquiry-based approach that was used at camp. In addition, students said they found the hands-on inquiry-based approach used at camp more interesting than traditional methods of instruction (lectures and note taking) used at school. Recommendations for future research are presented.
|
4 |
Successful White teachers of Black students: Teaching across racial lines in urban middle school science classroomsColeman, Bobbie 01 January 2007 (has links)
The majority of urban minority students, particularly Black students, continue to perform below proficiency on standardized state and national testing in all areas that seriously impact economically advanced career options, especially in areas involving science. If education is viewed as a way out of poverty, there is a need to identify pedagogical methodologies that assist Black students in achieving higher levels of success in science, and in school in general. The purpose of this study was to explore White teachers' and Black students' perceptions about the teaching strategies used in their low socioeconomic status (LSES) urban science classrooms, that led to academic success for Black students. Participants included three urban middle school White teachers thought to be the best science teachers in the school, and five randomly selected Black students from each of their classrooms. Methods of inquiry involving tenets of grounded theory were used to examine strategies teachers used to inspire Black students into academic success. Data collection included teacher and student interviews, field notes from classroom observations, group discussions, and questionaires. Data were analyzed using open, axial, and selective coding. The teachers' perceptions indicated that their prior belief systems, effective academic and personal communication, caring and nurturing strategies, using relevant and meaningful hands-on activities in small learner-centered groups, enhanced the learning capabilities of all students in their classrooms, especially the Black students. Black students' perceptions indicated that their academic success was attributable to what teachers personally thought about them, demonstrated that they cared, communicated with them on a personal and academic level, gave affirmative feedback, simplified, and explained content matter. Black students labeled teachers who had these attributes as "nice" teachers. The nurturing and caring behaviors of "nice" teachers caused Black students to feel a sense of community and a sense of belonging in their classrooms. Black students demonstrated that they respected and always "had the back" of these "nice" teachers. Results from this study could play a significant role in teacher retention and in informing best practices for preservice and other teachers who are struggling to meet the needs of LSES urban students.
|
Page generated in 0.1447 seconds