Your search found 14447 results.

Descriptors:
Childrens Literature; Science Activities; Books; Science Education; Science Instruction; Literacy; Mathematics Education; Mathematics Instruction; Learning Modules; Teaching Methods; Parent Participation

Abstract:
In the following article, Dr. Seuss's children's books are creatively integrated with science activities through the creation of take-home activity kits. The kits provide families an opportunity to read at home while connecting the enjoyable experience to science content and skill development through associated activities. The kits should be constructed using easy-reading books and aligned to developmentally appropriate academic science standards. Most importantly, they should be designed in a manner so that all family members are participants rather than expecting the adults to teach the expected outcomes. The activity kits can be completed as stand-alone experiences for interested students, used by students who are ready for an additional challenge, or adapted for an entire classroom of students as part of a teacher's normal curriculum. (Contains 1 table, 6 figures, and 3 resources.) Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Academic Achievement; Females; Ethnography; Disproportionate Representation; Middle School Students; Science Instruction; Science Education; Science Activities; Communities of Practice; Expertise; Case Studies; Grade 6; Grade 7; Grade 8; Clubs; Science Achievement

Abstract:
The underrepresentation of girls from nondominant backgrounds in the sciences and engineering continues despite recent gains in achievement. This longitudinal ethnographic study traces the identity work that girls from nondominant backgrounds do as they engage in science-related activities across school, club, and home during the middle school years. Building a conceptual argument for identity trajectories, the authors discuss the ongoing, cumulative, and contentious nature of identity work and the mechanisms that foster critical shifts in trajectories. The authors argue that the girls view possible future selves in science when their identity work is recognized, supported, and leveraged toward expanded opportunities for engagement in science. This process yields layered meanings of (possible) selves and of science and reconfigures meaningful participation in science. (Contains 2 tables, 1 figure, and 1 note.) Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Teaching Methods; Technological Literacy; Science Activities; STEM Education; Scientific Concepts; Physics; Elementary Schools; Secondary Schools; Engineering Education; Science Education; Mathematics Instruction; Technology Education

Abstract:
Exposing students to the application of math and science through a design-based activity can make them more technologically literate and teach integration between the STEM disciplines at an early age. This article discusses an activity that originated as a portion of a green residential house project conducted by the authors with their high school level students. The windmill portion was specifically targeted and broken down by the authors to work with elementary school students studying alternative energy at Kipps Elementary School in Blacksburg, VA. This activity can be completed at the upper elementary level as students enter Piaget's concrete operational stage and possess the fine motor skills to complement their logical thinking. This activity shows that teachers at any level, but specifically Grades 3-6, can be innovative in adapting lessons to promote technological literacy. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Teacher Education; Teacher Education Programs; Preschool Teachers; Teacher Attitudes; Student Teachers; Teacher Role; School Culture; Science Activities; Pedagogical Content Knowledge; Role Conflict; Longitudinal Studies; Science Instruction; Questionnaires

Abstract:
The aim of this exploratory, longitudinal study was to describe an overall picture of how perceptions of the teacher role and attitudes toward science and science teaching develop and interact during preschool teacher education, and how this in turn influences behavior when students are engaged in teaching science. Sixty-five students enrolled in a preschool teacher education program at a Swedish university were followed throughout their teacher education. The study used a phenomenographic approach within a theoretical framework of sociocultural and situated learning perspective. Questionnaires with open and closed questions were combined with interviews. The results show that in spite of growing competence and confidence, many of the students still found science activities to be awkward in preschool, mainly due to a wish to protect the children from school culture. The results have implications for teacher education and the preschool community, showing a need to problematize the purpose of teaching science in preschool and the meaning of pedagogical content knowledge in this context. (Contains 1 figure and 4 tables.) Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Science Achievement; Learning Motivation; Kindergarten; Science Instruction; Scientific Literacy; Family Programs; Science Activities; Low Income; Program Effectiveness; Comparative Analysis; Knowledge Level; Self Efficacy; Educational Environment; Family Environment

Abstract:
We examined science learning and motivation outcomes as a function of children's participation in the classroom and classroom-plus-home components of the Scientific Literacy Project (SLP). The sample was comprised of kindergarten children in 4 low income, neighboring schools. Children in Schools 1 and 2 (n = 120) participated in the SLP science activities. Of these children, 79 participated in the classroom component of the SLP whereas 41 participated in both the classroom and home components. A comparison group of children in schools 3 and 4 (n = 74) participated in regular science activities. We identified science learning, achievement, and motivational benefits for the SLP groups. Additional benefits for children who participated in both the classroom and home components of the SLP were greater gains in general science knowledge, higher levels of positive self-competence beliefs for science, perceived family support for learning science, and independence for learning science. (Contains 11 tables and 3 figures.) Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Science Activities; Science Instruction; Science Laboratories; Physiology; Biology; Research Design; Student Motivation; Problem Based Learning; Case Method (Teaching Technique); Symptoms (Individual Disorders); Animals; Veterinary Medicine; Clinical Diagnosis; Problem Solving

Abstract:
Students are provided with a mystery concerning dogs that are paralyzed. This motivates a laboratory exercise to measure parameters from the dog's "blood" to determine whether the paralysis is due to pesticide poisoning or an autoimmune attack on nerve myelin. Most of the materials are available from the grocery store. The real-world nature of the problem, and the mystery, engages the students in thinking about nerve, muscle, and immune system function. Alternative versions require less familiarity with physiology and can be used as engagement activities to encourage learning laboratory skills and experimental design or as motivation for learning nerve and muscle physiology. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Discussion (Teaching Technique); Cooperative Learning; Elementary Secondary Education; Undergraduate Students; Group Activities; Definitions; Science Activities; Science Instruction; Biology

Abstract:
"What is life?" This deceptively simple question lies at the heart of biology. In this activity, students work in groups to come up with their own definition using a set of prompting cards that differs for each team. In doing so, students gain an appreciation of the complexities of addressing this question. The activity takes approximately 60-90 minutes to complete, but students often discuss its implications for weeks afterward. This activity successfully engaged freshman undergraduate students and could easily be adapted to high school and even elementary school students. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Metabolism; Natural Disasters; Science Activities; Science Instruction; Science Laboratories; Entomology; Statistical Analysis; Comparative Analysis; Laboratory Experiments; Measurement; Animal Behavior

Abstract:
Populations of the Eastern subterranean termite, "Reticulitermes flavipes," are widespread throughout most of the eastern United States. Subterranean termites have the ability to survive flooding conditions by lowering their metabolism. This lesson investigates the connection between the ability of termites to lower their metabolism to survive floods and their feeding behavior. Using an incubator, Petri dishes, and different types of mulch, termite consumption can be measured and compared. These results can be analyzed with a simple statistical test to look for significance. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Evidence; Teaching Methods; Biology; Scientific Methodology; Laboratory Experiments; Writing for Publication; Instructional Innovation; Science Activities; Science Instruction; Science Laboratories; Student Research

Abstract:
Laboratory experience and skills are not only essential for success in science studies, but are the most exciting and rewarding aspects of science for students. As a result, many biology teachers have become critical of the efficacy of cookbook-type laboratory activities as well as the purposes, practices, and learning outcomes of lab experiments conducted in this regimented way. In our proposed lab approach, instead of asking students to compare and contrast living cells from various kingdoms, we ask that students design and conduct lab experiments to obtain the empirical evidence to disprove both Schleiden's and Schwann's generalizations that all living things, including plants and animals, are composed of identical units called "cells." Students must then write up their findings in a paper intended for publication in a peer-reviewed scientific journal. Through this process, students learn the scientific method; concepts such as testability, falsifiability, and repeatability; and the requirements of communicating scientific findings through peer-reviewed publication. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website

Descriptors:
Student Attitudes; Biotechnology; Video Games; Secondary School Teachers; Science Careers; Educational Technology; Educational Games; High School Students; Curriculum Implementation; Scientific Attitudes; Science Tests; Outcome Measures; Science Activities; Science Instruction; Instructional Effectiveness; Statistical Analysis

Abstract:
The educational video game Mission Biotech provides a virtual experience for students in learning biotechnology materials and tools. This study explores the use of Mission Biotech and the associated curriculum by three high school teachers and their students. All three classes demonstrated gains on a curriculum-aligned test of science content. Students from two of the classes showed gains on a standards-aligned test of content; students from the third class did not demonstrate statistically significant gains. This result is attributable to a ceiling effect. The results support the idea that video games can be useful in classroom contexts. No statistically significant changes were found when looking at how the game affected student attitudes toward science and science careers. Note:The following two links are not-applicable for text-based browsers or screen-reading software. Show Hide Full Abstract

Related Items: Show Related Items

Full-Text Availability Options:

More Info:
Help | Tutorial Help Finding Full Text |  More Info:
Help Find in a Library |  Publisher's website