Author : Pam Hook
Publisher : Essential Resources Limited
Page : 82 pages
File Size : 43,59 MB
Release : 2017-04-13
Category : Education
ISBN : 9781776553921
This resource takes SOLO Taxonomy and combines it with current theories on how students learn and effective pedagogies. It shows how to develop curious minds in science by accessing learning through the science capabilities, collaboration, citizenship and community.
Author : Pam Hook
Publisher :
Page : pages
File Size : 40,45 MB
Release : 2011
Category : Cognition in children
ISBN : 9781927143964
Author : Steve Martin
Publisher :
Page : 56 pages
File Size : 37,91 MB
Release : 2011
Category : Cognition in children
ISBN : 9781927143551
Shows how the SOLO taxonomy model of learning can be transferred into everyday teaching and learning in a simple but sophisticated way.
Author : John B. Biggs
Publisher : Academic Press
Page : 262 pages
File Size : 45,15 MB
Release : 2014-05-10
Category : Education
ISBN : 1483273318
Educational Psychology Series: Evaluating the Quality of Learning: The SOLO Taxonomy (Structure of the Observed Learning Outcome) focuses on the approaches, methodologies, and techniques employed in the valuation of the quality of learning. The publication first offers information on the quality and quantity of learning and origin and description of the Structure of the Observed Learning Outcome (SOLO) taxonomy. Discussions focus on general intellectual development and the growth of quality; some assumptions and applications of stage theory; from developmental stage to levels of learning quality; and general intellectual development and the growth of quality. The text then examines the teaching of history, elementary mathematics, English, and geography. Topics include interpreting a map and drawing conclusions, explaining a natural phenomenon, appreciation of poetry, implications for the teaching of history, English, and mathematics, numbers and operations, and general application of SOLO to history. The manuscript takes a look at modern languages, place of the taxonomy in instructional design, and some methodological considerations. Concerns include alternative formats for obtaining SOLO responses, instructional processes, curriculum analysis, remediation, and teacher intentions. The publication is a vital source of data for educators interested in the SOLO taxonomy.
Author : Robyn M. Gillies
Publisher : CRC Press
Page : 92 pages
File Size : 47,43 MB
Release : 2020-01-24
Category : Education
ISBN : 1000036316
Students often think of science as disconnected pieces of information rather than a narrative that challenges their thinking, requires them to develop evidence-based explanations for the phenomena under investigation, and communicate their ideas in discipline-specific language as to why certain solutions to a problem work. The author provides teachers in primary and junior secondary school with different evidence-based strategies they can use to teach inquiry science in their classrooms. The research and theoretical perspectives that underpin the strategies are discussed as are examples of how different ones areimplemented in science classrooms to affect student engagement and learning. Key Features: Presents processes involved in teaching inquiry-based science Discusses importance of multi-modal representations in teaching inquiry based-science Covers ways to develop scientifically literacy Uses the Structure of Observed learning Outcomes (SOLO) Taxonomy to assess student reasoning, problem-solving and learning Presents ways to promote scientific discourse, including teacher-student interactions, student-student interactions, and meta-cognitive thinking
Author : John Almarode
Publisher : Corwin Press
Page : 131 pages
File Size : 17,33 MB
Release : 2018-02-15
Category : Education
ISBN : 1506394191
In the best science classrooms, teachers see learning through the eyes of their students, and students view themselves as explorers. But with so many instructional approaches to choose from—inquiry, laboratory, project-based learning, discovery learning—which is most effective for student success? In Visible Learning for Science, the authors reveal that it’s not which strategy, but when, and plot a vital K-12 framework for choosing the right approach at the right time, depending on where students are within the three phases of learning: surface, deep, and transfer. Synthesizing state-of-the-art science instruction and assessment with over fifteen years of John Hattie’s cornerstone educational research, this framework for maximum learning spans the range of topics in the life and physical sciences. Employing classroom examples from all grade levels, the authors empower teachers to plan, develop, and implement high-impact instruction for each phase of the learning cycle: Surface learning: when, through precise approaches, students explore science concepts and skills that give way to a deeper exploration of scientific inquiry. Deep learning: when students engage with data and evidence to uncover relationships between concepts—students think metacognitively, and use knowledge to plan, investigate, and articulate generalizations about scientific connections. Transfer learning: when students apply knowledge of scientific principles, processes, and relationships to novel contexts, and are able to discern and innovate to solve complex problems. Visible Learning for Science opens the door to maximum-impact science teaching, so that students demonstrate more than a year’s worth of learning for a year spent in school.
Author :
Publisher :
Page : 72 pages
File Size : 31,63 MB
Release : 2015-04-08
Category :
ISBN : 9781776551040
Author : Eleanor Abrams
Publisher : IAP
Page : 312 pages
File Size : 47,57 MB
Release : 2007-11-01
Category : Education
ISBN : 1607526301
The purpose of this text is to further flesh out some of the factors--specific dimensions of our n-dimensional hyperspace--important to inquiry in the classroom. As such, some of the of the factors have already been introduced, others will be new to the conversation. In our discussions that lead to the preparation of this manuscript, it became clear that each of us was interested in classroom inquiry, and so we each wanted to situate our analysis in these classrooms. For that purpose, our discussions are organized into sections. Each section begins with one (or more) vignette--snippets of science classrooms--that the authors then discuss how this vignette demonstrates some aspect of the specific dimension that they are charged with discussing. Because inquiry is so multifaceted and its portrayals are often complex and nuanced, the discussion of the dimension is broken into separate essays--each of which addresses the focal dimension in different ways. Following the essay, a broader discussion across the essays is offered to support your sense making. As we began this effort, we selected what we understood to be the most influential dimensions of inquiry in the classroom. But certainly there are others that can and should have been included, (i.e., the role of curriculum in supporting (or confining) the enactment of inquiry, the manner in which inquiry can shape students' knowledge, the role systemic efforts can have in enabling inquiry). But given the confines of one text, we've chosen what we understood to be the central components, and these have been arranged into 6 sections. Our vision is that each of these sections can be self-supporting, so their appearance in the text doesn't represent the order in which they must be read. Ideally, the reader would engage in the introduction, then select the section that addresses the dimension influencing classroom inquiry that is of greatest importance. The only exception to this is section 6, which is a specific form of enactment of classroom inquiry; engagement with this section may be best augmented after reading the sections that interest you.
Author : Emily Rinkema
Publisher : Corwin Press
Page : 170 pages
File Size : 16,65 MB
Release : 2018-08-10
Category : Education
ISBN : 1544324243
Get to know which practices related to curriculum, instruction, and assessment are essential to make learning the goal for every student! You’ll learn how to Create learning targets that are scalable and transferable within and across units Develop instructional scales for each learning target Design non-scored practice activities and assessments Introduce and model skills that will be assessed and design tasks that allow students to use these skills Differentiate instruction and activities based on data from various types of assessments Maintain a gradebook that tracks summative achievement of learning targets, and score assessments accordingly Communicate progress clearly and efficiently with students and families
Author : Justin Dillon
Publisher : Routledge
Page : 246 pages
File Size : 13,73 MB
Release : 2003-09-02
Category : Education
ISBN : 1135719195
In response to requests by science teachers for guidance on the process of mentoring in schools, this text provides an interactive, activities-based resource. It takes into account the progressive development of skills and competencies, for all those involved in the training of science teachers; pre-service, in-service and quality control. Activities are directly related to classroom and laboratory planning, organisation and management and include general question and answer exercises.; The book covers nine areas of science teacher competence crossed with five levels of progression to give a flexible programme of training. Each activity has a commentary for mentors and notes for student teachers, and discusses the rationale behind each activity. Five activities are written specifically to help mentors review progress at each of the five levels.; Additionally, it can be used by: experienced teachers for refreshing their own practice; Heads of Science Departments for upgrading science teaching within the departments; and those concerned with quality control and certification to recommend activities, taken from the book, to aid further professional development.
