The Challenger Reach 2 U program will reach over 6,500 fourth-grade students in 261 missions from underserved communities throughout southwest Colorado and northwestern New Mexico, including primarily rural, lower socio-economic status, Hispanic and Native American districts that seldom have such STEM educational opportunities. The Colorado Consortium for Earth and Space Science Education (CCESSE) will show that increasing the quality of science, technology, engineering, and mathematics (STEM) education is not only a NASA goal set at the national level and a state and local priority, but is the underlying core competency of our organization as well. As an integral part of our Challenger Reach 2 U proposal to motivate interest in STEM curriculum and to strengthen the Nation's future workforce, we will thoroughly train teachers of these students to be more comfortable with technology and more prepared to deliver motivational STEM lessons, leaving an educational legacy that will greatly outlive the life of this grant. We will provide these students with cross-curricular preparatory lessons which will culminate with an exciting simulated space mission delivered in their own classrooms and moderated by a "NASA" mission director at our Center. With the help of the NASA grant, all of these services will be provided at no cost to the schools.
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TEAM MEMBERS:
Tracey Tomme
resourceresearchProfessional Development, Conferences, and Networks
This paper from Phi Delta Kappan describes how growing inequality threatens American education. One of the leading indicators is the amout of resources spent on young people during their out-of-school time.
In responding to the research on conceptual change, this article attempts to make two points. First, scientific concepts are not possessed by individuals; rather, they are part of a culture’s resources, which individuals learn to use for their own or for group purposes. Second, particular concepts are most effectively mastered when the learner is deeply engaged in solving a problem for which they function as effective semiotic tools in achieving a solution. On these grounds, it is argued that the mastering of scientific concepts is best achieved through learning to use them in motivated
It has been 40 years since science, technology, society, and environment (STSE) education first appeared in science education research and practice. Although supported among many educators worldwide, there is much confusion surrounding the STSE slogan. Widely differing discourses on STSE education and diverse ways of practicing, have led to an array of distinct pedagogical approaches, programs, and methods. We are left wondering how we might orient ourselves amid such a diversity of propositions. What does STSE look like in practice? What ideological orientations underpin its practice? In this
As the astronomy education community develops, a need has arisen for concrete research and evaluation methodologies, especially within informal educational settings. We propose one such methodology, action evaluation, which attempts to demystify the process of research/evaluation and recruit as partners those who are traditionally left out of this process. Based on the tradition of action research, this methodology incorporates research/evaluation into the fabric of programs and places the researcher/educator in a centralized role. We provide concrete examples of tools that we have used to
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TEAM MEMBERS:
Nicholas StroudMeghan GroomeRachel ConnollyKeith Sheppard
It is presented some considerations related to the role of cinema to introduce and contextualize issues as the image of science and scientists and how science works. Cinema can be used as an important tool in science teacher training or education because it lets to establish connections between two relevant aspects in natural science classrooms: the emotional component that allows the audience to establish a relation with the characters of scientific stories (Arroio, 2010) and the historical-philosophical-sociological component which contributes to show a more real image of science in school
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TEAM MEMBERS:
Agnaldo ArroioDiana Farias
resourceresearchProfessional Development, Conferences, and Networks
What Teachers and Districts Most Need from Research and Researchers: In this presentation from a workshop on research and practice at the NARST annual conference, Dan Gallagher of Seattle Public Schools and Tana Peterman of University of Washington discuss examples of what practitioners need from the education research community.
This article examines the literature on Native science in order to address the presumed binaries between formal and informal science learning and between Western and Native science. We situate this discussion within a larger discussion of culturally responsive schooling for Indigenous youth and the importance of Indigenous epistemologies and contextualized knowledges within Indigenous communities.
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TEAM MEMBERS:
Bryan Mckinely Jones BrayboyAngelina Castagno
Over many decades, science education researchers have developed, validated, and used a wide range of attitudinal instruments. Data from such instruments have been analyzed, results have been published, and public policies have been influenced. Unfortunately, most science education instruments are not developed using a guiding theoretical measurement framework. Moreover, ordinal-level attitudinal data are routinely analyzed as if these data are equal interval, thereby violating requirements of parametric tests. This paper outlines how researchers can use Rasch analysis to develop higher quality
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TEAM MEMBERS:
William BooneJ. Scott TownsendJohn Staver
In both formal and informal settings, not only science but also views on the nature of science are communicated. Although there probably is no singular nature shared by all fields of science, in the field of science education it is commonly assumed that on a certain level of generality there is a consensus on many features of science. In this paper, it will be argued that because of their focus on unifying items and their ignoring of the actual heterogeneity of science, it is questionable whether such consensus views can fruitfully contribute to the aim of science communication, i.e., to
In this paper, research on interest and motivation is revisited in the context of informal science learning (ISL) settings such as museums, out-of school or after-school clubs or groups, science camps, and enrichment programs1. The ISL context differs from traditional school "cookbook" science in a number of critical ways: rather than emphasizing science information, it is designed to engage participants in inquiry-informed and free-choice opportunities to work with authentic science2. Productive participation in the ISL setting should enable the development of scientific literacy and
This report, commissioned by the Wellcome Trust, provides a review of the value of informal science learning to science education in the UK. The study seeks to provide: a better understanding of the scope of informal science learning, its theoretical base and the types of change it can bring about in the understanding of and attitudes towards science; recommendations for robust methods for evaluating the impact of informal science learning, based on an analysis of practice in the field; recommendations on reaching deprived learners, schools and families; and recommendations based on best
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TEAM MEMBERS:
GHK ConsultingRichard LloydRoss NeilsonSuzanne KingMark DyballWellcome Trust