A three-year project, Science Experiences and Resources for Informal Education Settings (SERIES), involves collaboration between the 4-H Youth Development Program, practicing scientists, science education centers, and community service agencies to provide community-based science experiences for youth. Goals for national dissemination of the SERIES project are: 1) Increase the quality and quantity of science experiences for youth as leaders and as learners; 2) For youth to actively experience how science concepts and processes relate to their everyday lives; 3) Provide opportunities for youth to take positive leadership roles in their homes and communities; and 4) Provide opportunities for youth to investigate educational and career possibilities in science and technology through a scientist mentor relationship. SERIES builds upon the materials, and instructional/coaching model successfully developed and tested during the Califronia SERIES Project. National dissemination by 4-H assures SERIES availability to the 5,100,000 youth currently enrolled in 4-H. Expected outcomes of SERIES are: 1) Refine and produce final versions in English and Spanish of four SERIES community service science units; 2) Develop two new units; 3) Development of an "inquiry coaching" module for adult volunteers; 4) Develop and asses apprentice-like mentoring experiences for SERIES teens to work directly with scientists; and 5) Establish four SERIES regional dissemination centers, working collaboratively with 4-H, science centers and other youth serving agencies to provide national dissemination of the SERIES program model to 28 states.
DATE:
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TEAM MEMBERS:
Richard PonzioLaurel DeanHerbert Thier
Science-By-Mail is a mentorship program between scientists and youth whereby youth have a subscription for three scientific challenge packets each year, create solutions, and receive responses from a personal scientist. Science-By-Mail brings the excitement of science discovery into classrooms and homes of children around the country and provides them with positive, approachable role models of professional scientists. A grant of $622,088 over three years will allow us to strengthen and expand this program nationally, focusing especially on increasing participation by minority youth and scientists. Specifically, support is requested for the design and development of 12 new challenge packets; to increase participation to 47,900 youth, 4,500 scientists, and 26 regional chapters; promote increased corporate and other private-sector involvement in the program; and to conduct an annual evaluation. The AAAS will aid in the recruitment of volunteer scientists. In addition, we will work together with the National 4-H Council to pilot the program within that organization (with a membership of 5.4 million), focusing particularly on minority youth. Anticipated income form the expansion of Science-By-Mail will make the program self-sufficient at the end of the grant period.//
In every drop of water, down at the scale of atoms and molecules, there is a world that can fascinate anyone - ranging from a non-verbal young science student to an ardent science-phobe. The objective of Learning Science Through Guided Discovery: Liquid Water & Molecular Networks is to use advanced technology to provide a window into this submicroscopic world, and thereby allow students to discover by themselves a new world. We are developing a coordinated two-fold approach in which a cycle of hands-on activities, games, and experimentation is followed by a cycle of computer simulations employing the full power of computer animation to "ZOOM" into the depths of his or her newly- discovered world, an interactive experience surpassing that of an OMNIMAX theater. Pairing laboratory experiments with corresponding simulations challenges students to understand multiple representations of concepts. Answers to student questions, resolution of student misconceptions, and eventual personalized student discoveries are all guided by a clear set of "cues" which we build into the computer display. Moreover, the ability to visualize "real-time" dynamic motions allows for student-controlled animated graphic simulations on the molecular scale and interactive guided lessons superior to those afforded by even the most artful of existing texts. While our general approach could be applied to a variety of topics, we have chosen to focus first on water; later we will test the generality of the approach by exploring macromolecules such as proteins and DNA. The simulation sofware we have been developing embodies a simple molecular interaction model but requires leading edge computing in order to (1) apply the model to large enough systems to yield simple and realistic behavior, and (2) animate the result in real time with advanced graphics. Our ultimate goal in this project is not only to help students learn science, but also to help them learn to think like research scientists. By looking at scientific knowledge as a set of useful models - models that are essentially temporary and will inevitably lead to better ones - they can see that science is not a set of facts, but a method for discovering patterns and predictability in an otherwise disordered and unpredictable world. Through mastery of the simulation software, students will gain the self-confidence to embark on their own missions of discovery.