This paper argues that the diverse curriculum reform agendas associated with science education are strongly and critically associated with the educational characteristics of the humanities. The article begins with a survey of interpretations of the distinctive contribution which the humanities make to educational purposes. From this survey four general characteristics of the humanities are identified: an appeal to an autonomous self with the right and capacity to make independent judgements and interpretations; indeterminacy in the subject matter of these judgements and interpretations; a
This study investigated the effectiveness of a combined museum and classroom intervention project on science learning in low-income children. The focus of the program was on children's content knowledge and concept complexity. Thirty children were in the experimental group. A control group of 18 children visited literacy and social studies exhibits at the museum. Results indicate that children in the experimental group learned content knowledge about the components of bubbles and the definition of a current. Although children in the experimental group exhibited more complex concepts about
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Harriet TenenbaumGabrielle Rappolt-SchlichtmannVirginia Vogel Zanger
The purpose of this paper is to explore and discuss the role of practical work in the teaching and learning of science at school level. It emphasizes practical work as a means for students to learn about the nature of science.
Reports from the NSF, NRC, AAAS, and others urge over and over that we must teach "science as science is done," that "science is a way of knowing," that our goal should be to impart "scientific habits of mind," and that learning must be learner-centered and oriented toward process. Fine. But what does this really mean for science education, and especially laboratory education?
This paper explores the role of laboratory and field-based research experiences in secondary science education by summarizing research documenting how such activities promote science learning. Classroom and field-based "lab work" is conceptualized as central components of broader scientific investigations of the natural world conducted by students. Considerations are given to nature of professional scientific practice, the personal relevance of student's understanding of the nature of empirical scientific research, and the role of technology to support learning. Drawing upon classroom learning
This case study reveals how one community-based youth development organization in the northeastern United States advocated for social and educational equity for the low-income families it served by challenging the local school district’s practice of referring low-income children of color to special education in disproportionate numbers. Because this community-based organization (CBO) is typical of many such youth-serving organizations, the case study shows how the assets CBOs bring to their communities can help them negotiate with schools to achieve greater social and educational equity for
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Sara Hill
resourceprojectProfessional Development, Conferences, and Networks
This model science teacher retention and mentoring project will involve more than 300 elementary teachers in "Lesson Study" of inquiry science around school gardens. Drawing on the rich resources of the University of California Botanical Garden and the science educators at the Lawrence Hall of Science this project will develop Teacher Leaders and provide science content professional development to colleagues in four urban school districts. Using the rich and authentic contexts of gardens to engage students and teachers in scientific inquiry opens the opportunity to invite parents to become actively involved with their children in the learning process. As teachers improve their classroom practices of teaching science through inquiry with the help of school-based mentoring they are able to connect the teaching of science to mathematics and literacy and will be able to apply the lesson study approach in their teaching of other innovative projects. Teacher leaders and mentors will have on-going learning opportunities as well as engage participating teachers in lesson study and reflection aimed toward improving science content understanding and the quality of science learning in summer garden learning experiences and having context rich science inquiry experiences throughout the school year.
The New Mexico Museum of Natural History and Science proposed to develop an outreach science and mathematics program with a parent involvement and teacher enhancement professional development component. The goals of the project are as follows: (1) to involve parents in their children's education; (2) to promote a positive attitude on behalf of parents and students toward science and mathematics; (3) to increase teachers' level of comfort in teaching science; and (4) to enhance teacher's confidence in the hands-on approach as an effective method for teaching science. The objectives for the parent component of this project are: acquaint parents with the national and state science education goals and standards; introduce parents to activities that can be done at home with children; and provide families with materials and activity sheets that can be used at home. The objectives for the teacher component of this project are: (1) to provide teachers with opportunities for increased communication with parents about science literacy for children; (2) provide professional development for teachers on the use of hands-on science activities in the classroom; and (3) to providing bilingual activity guides and kits containing materials to encourage science learning. The methods for implementing this project will be varied according to the needs of the target audiences. Parents and children will be engaged through parent workshops and multi-aged children's activities conducted at the museum by experienced science educators. The professional development for teachers' component of this project will include an extensive summer workshop, on-going training/ planning sessions during the school calendar year and session on the uses of the bilingual teaching manuals. The cost sharing for this NSF award is 46.7% of the total project cost.
This project, Project PARTNERS (Parents: Allies Reinforcing Technology and Neighborhood Educators Reinforcing Science) supports parents and their children in learning the mathematics and science taught in the schools. The Bronx Educational Alliance (BEA), in collaboration with Lehman College, School District Nine, the Bronx High School Superintendency, and the Bronx Federation of High School Parent Association Presidents, provides a four-month Parent Academy twice a year. Thirty-six parents (20 elementary, 6 middle and 10 high school), from 18 Bronx schools in three K-12 corridors with which the BEA Resource/Outreach Center for Parents currently works, participate in each Academy, reaching 360 over five years. Project PARTNERS goals are to: 1) increase student achievement in 18 Corridor Schools through meaningful parental support; 2) provide parent training in Math, Science and Technology and enable parents to understand the New Standards; 3) develop skills to reinforce their children's learning at home; and 4) model how to effectively learn in science-rich informal educational institutions. Parents meet on Saturdays twice a month for six hours. On one Saturday they team with a teacher and child to visit a science rich institution. On the other Saturday they learn to use computer software programs which support MST, and math concepts through games and manipulatives. Incentives for parents include learning computer skills and stipends of $300 upon completion. The BEA Academies coordinate with the BUSI and District's Family Math and Family Science workshops.
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Herminio MartinezMarietta Saravia-Shore
Parent Partners in School Science (PPSS) is a partnership project between The Franklin Institute and the Philadelphia School District. This is a three and one-half year program which will provide a pivotal role for the informal science learning center to be a facilitator in parental support of K-4 school instruction in science. The PPSS program will involve teachers, families and children in grades K-2 the first year, grades 1-3 the next, and finally grades 2-4 in the third year. The incorporation of the national science standards and working with Home and School Associations (HSA) in the area schools, the program will impact over 3600 children, 5400 parents and 45 educators participating over the life of the project. There are several goals and elements in the program. This will certainly demonstrate how an informal science center supports learning and it is also hoped to become a model for effective parent-teacher and parent-child collaboration to support learning. There will be Exploration Cards developed, which are at-home schince challenges for families, Discovery Days that are museum-based days of science inquiry using the yearly theme, Parent/Teacher Workshops at the museum, and finally a Science Celebration which is a showcase of participants' year-long achievements via an exhibit to be displayed at The Franklin Institute for a month, then traveling the exhibit to participating schools. The project's structure, disseminination acitivites and products are designed for national application and as a model for use in both formal and informal education communities. It is hoped the program will offer new opportunities for science center methology and pratice to provide direct support for the school agenda in science.
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
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Leroy HoodEthan AllenDana RileyPatrick Ehrman
This project develops an 8-week middle-school mathematics module that introduces cryptography, the science of sending secret messages, while teaching and reinforcing the learning of related mathematical concepts. The topics range from the classical encryption systems and the historic context in which they were used through powerful modern encryption systems that provide secrecy in electronic messages today. The module also covers passwords and codes that correct errors in the transmission of information. Public awareness of the importance of cryptography is growing, as is the need to understand the issues involved. The study of cryptography provides an interesting context for students to apply traditional mathematical skills and concepts. Mathematical topics covered include percents, probability, functions, prime numbers, decimals, inverses and modular arithmetic. The main product is a middle-school student book, with accompanying teacher materials. A web site is being developed that supports the activities in this book. Abbreviated modules for Grades 3, 4 and 5 are also being developed, as well as an instructor's guide for adapting the materials for use in informal educational settings such as museums and after-school programs. The development of the module involves piloting and field-testing by experienced classroom teachers from diverse school communities and instructors of informal educational programs. Evaluation includes review by mathematicians and educators, as well as an investigation into the level of students' understanding of the topics studied.