Teacher-designed materials focused on problem-based learning to develop inquiry skills

117 páginas : ilustraciones, gráficosThis qualitative action research study. analyzed the contributio'1 of teacher-designed materials in the development of students' inquiry skills. For this study the skills selected were Observation. Prediction, Interpretation and Communication (OPIC). The study took place in a private school in Bogota with a sample of ten second graders. in the Science class. Six worksheets were designed based on the Second Language Acquisition principles focused on Problem-based learning approach. The data gathering instruments used were: students' artifacts with their self-assessment. field notes and focus group interview. Data was analyzed by using the grounded theory and the color coding technique. The findings showed that teacher-designed materials promoted self-construction of knowledge. understanding the socio-cultural context using sequenced worksheets that favor students' preferences and provided strategies to achieve communicative goals and independent practice supported by feedback. Problern-based learning strategies to solve problems benefited identification ,rnd description of elements and situations to find needs; comparison leaded to suitable outcomes on problems; and inquiry skills were enhanced through observation and prior knowledge for accurate prediction and appropriate interpretation of data that supported different ways of communicating results.Esta investigación- acción cualitativa, analizó la contribución de los materiales diseñados por docentes en el desarrollo de habilidades de indagación, Observación, Predicción, lnterpretación y Comunicación. El estudio se realizó en un colegio privado de Bogotá. muestra de diez estudiantes de grado segundo en ciencias naturales. Se diseñaron seis guías de trabajo fundamentadas en los principios de adquisición de la segunda lengua y el enfoque de aprendizaje por problemas. Los instrumentos de recolección de datos utilizados fueron los artefactos de estudiantes con autoevaluaciones. notas de campo y entrevista al grupo focal. Los datos se analizaron a partir de la teoría fundamentada y la técnica de codificación de color. Los hallazgos mostraron que los materiales diseñados promovieron la autoconstrucción del conocimiento entendiendo el contexto sociocultural utilizando guías que favorecían preferencias de los estudiantes, proporcionaron estrategias para lograr objetivos comunicativos y práctica independiente respaldada por realimentación. Las estrategias de aprendizaje basadas en problemas para resolver problemas beneficiaron identificación y descripción de elementos y situaciones para encontrar necesidades, y conducir a resultados en problemas. Las habilidades de indagación se mejoraron a través de la observación y el conocimiento previo para la predicción precisa y la interpretación adecuada de los datos que admite diferentes formas de comunicar los resultados.Magíster en Evaluación y Aseguramiento de la Calidad de la EducaciónMaestrí

Science Leadership: Impact of the New Science Coordinators Academy

This article discusses the impact of the New Science Coordinators Academy (NSCA) on two cohorts of participants. The NSCA is one of four components of the Virginia Initiative for Science Teaching and Achievement (VISTA), a United States Department of Education (USED) science education reform grant. The NSCA is designed to support new school district science coordinators (with less than five years of experience) and to continue building the state science education infrastructure. Research in education leadership traditionally focuses on teacher leaders, principals, and district office personnel. Interestingly, research on district office personnel rarely distinguishes between the different roles of district personnel. This article seeks to inform the field by sharing the impact of an academy designed for new science coordinators on their learning, and to begin to understand their role and impact in their district. The five-day Academy engaged participants in a variety of experiences designed to facilitate the following: 1) build leadership skills; 2) build a common understanding and vision for hands-on science, inquiry, problem-based learning, and nature of science in the science classroom; 3) investigate data to improve student learning goals; 4) and, develop a science strategic plan. The data indicate that the NSCA was successful at meeting its goals to support the participants and to build a common language among these new coordinators. Initial data also support the variety of responsibilities of these participants and the positive impact of the Academy on their district work

Integrating Authentic Digital Resources in Support of Deep, Meaningful Learning

"Integrating Authentic Digital Resources in Support of Deep, Meaningful Learning," a white paper prepared for the Smithsonian by Interactive Educational Systems Design Inc., describes instructional approaches that apply to successful teaching with the Smithsonian Learning Lab.After defining its use of terms such as deeper learning and authentic resources the authors review the research basis of three broad approaches that support integrating digital resources into the classroom:Project-based learningGuided exploration of concepts and principlesGuided development of academic skillsThese approaches find practical application in the last section of the paper, which includes seven case studies. Examples range from first-grade science, to middle-school English (including ELL strategy) to a high-school American government class. In each example, students study and analyze digital resources, going on to apply their knowledge and deepen their understanding of a range of topics and problems

What is a scientific experiment?: The impact of a professional development course on teachers’ ability to design an inquiry-based science curriculum

Designing inquiry-based science lessons can be a challenge for secondary school teachers. In this study we evaluated the development of in-service teachers’ lesson plans as they took part in a 10-month professional development course in Peru which engaged teachers in the design of inquiry-based lessons. At the beginning, most teachers designed either confirmatory or structured inquiry activities. As the course progressed, however, they started designing guided and open inquiry lesson plans. We found four factors that accounted for this change: re-evaluating the need for lab materials, revising their views on the nature of science, engaging in guided and open inquiry activities themselves, and trying out inquiry-based lessons with their own students. Our results point to the importance of engaging teachers in prolonged and varied opportunities for inquiry as part of teacher education programs in order to achieve the challenge of changing teachers’ views and practices in science education.Fil: Pérez, María del Carmen B.. Universidad de Piura; PerúFil: Furman, Melina Gabriela. Universidad de San Andrés. Escuela de Educación; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentin

Learning recursively: integrating PBL as an authentic problem experience [Plenary presentation]

[Abstract]: Problem based learning (PBL) is widely recognised as a desirable approach to education of future professionals. One strong basis for its appeal is the use of authentic problems of practice, which make the relevance of what is being learned apparent to the learners and encourage development of attitudes and skills that will be central to continuing professional growth beyond graduation. However, the change from traditional lecture-based courses to PBL presents challenges to educators and the institutions in which they work. In many respects, the implementation of PBL can be itself an experience in PBL for the educator. This presentation will address some of the challenges associated with integrating PBL in a university setting from the perspective of those who design and teach courses using PBL, which will be understood as a spectrum of practices rather than a single approach that must be replicated in every instance

Geosciences for Elementary Educators: A Course Assessment

Geosciences for Elementary Educators engages future elementary teachers in a hands-on investigation of topics aligned with the third and fifth grade Earth/Space Science and Scientific Inquiry benchmarks of the Oregon Content Standards. The course was designed to develop the content background of elementary teachers within the framework of the science described in the content standards, to provide an opportunity for future teachers to explore the content area in relation to what takes place in the classrooms of elementary schools, and to initiate a community of learners focused on teaching science to elementary students. The course focused on four themes: the classroom teacher as an activity and curriculum developer using diverse resources to keep the content current and alive; the classroom teacher as educator dealing with the diverse backgrounds of students in a developmentally appropriate manner; the classroom teacher as reflective practitioner exploring the links among pedagogy, content, and student learning; and, the classroom teacher as citizen staying current with emerging policy issues and debates that impact education. In a course where process is extremely important, participants are assessed on what they can do with content and process knowledge through preparing lesson plans, presenting lessons in a simulated classroom environment, and developing a portfolio and journal. Lesson plans demonstrate participant understanding of inquiry, using models, deductive and inductive approaches, links between communication skills and content knowledge, and effective use of technology, including the Internet. For each topic, the mixture of demonstration, experimentation, inquiry, and lecture models are explored through investigation, discovery, and analysis

How Does Leadership Matter? Developing and Teaching a Definition of Hands-On Science, a Prerequisite for Effective Inquiry Teaching

This descriptive case study describes leadership skills and planning for setting clear directions by program leaders for a statewide professional development initiative to extend improvement in science teaching and learning. For science teachers and leaders in Virginia, a critical part of setting clear goals that everyone can understand is defining key science terms. One of the four key terms, hands-on science, is defined here. Materials to develop teachers\u27 understanding of the term for effective implementation of classroom inquiry activities are shared, along with a rubric for evaluation by and for teachers. Understanding of the term hands-on science is necessary before inquiry-based science teaching can be fully implemented. Authentic science materials, when safe, are necessary for doing authentic, inquiry-based science teaching in a way similar to how a scientist investigates science

Contours of Inclusion: Frameworks and Tools for Evaluating Arts in Education

This collection of essays explores various arts education-specific evaluation tools, as well as considers Universal Design for Learning (UDL) and the inclusion of people with disabilities in the design of evaluation instruments and strategies. Prominent evaluators Donna M. Mertens, Robert Horowitz, Dennie Palmer Wolf, and Gail Burnaford are contributors to this volume. The appendix includes the AEA Standards for Evaluation. (Contains 10 tables, 2 figures, 30 footnotes, and resources for additional reading.) This is a proceedings document from the 2007 VSA arts Research Symposium that preceded the American Evaluation Association's (AEA) annual meeting in Baltimore, MD