Computational Thinking (CT) is a relatively new educational focus and a clear need for learners as a 21st century skill. This proposal tackles this challenging new area for young learners, an area greatly in need of research and learning materials. The Principal Investigators will develop and implement integrated STEM+C museum exhibits and integrate CT in their existing engineering design based PictureSTEM curriculum for K-2 students. They will also pilot assessments of the CT components of the PictureSTEM curriculum. This work will make a unique contribution to the available STEM+C learning materials and assessments. There are few such materials for the kindergarten to second grade (K-2) population they will work with. They will research the effects of the curriculum and the exhibits with a mixed methods approach. First, they will collect observational data and conduct case studies to discover the important elements of an integrated STEM+C experience in both the formal in-school setting with the curriculum and in the informal out-of-school setting with families interacting with the museum exhibits. This work will provide a novel way to understand the important question of how in- and out-of-school experiences contribute to the development of STEM and CT thinking and learning. Finally, they will collect data from all participants to discover the ways that their activities lead to increases in STEM+C knowledge and interest.
The Principal Investigators will build on an integrated STEM curriculum by integrating CT and develop integrated museum exhibits. They base both activities on engineering design implemented through challenge based programming activities. They will research and/or develop assessments of both STEM+C integrated thinking and CT. Their research strategy combines Design Based Research and quantitative assessment of the effectiveness of the materials for learning CT. In the first two years of their study, they will engage in iterations on the design of the curriculum and the exhibits based on observation and case-study data. There will be 16 cases that draw from each grade level and involve data collection for the case student in both schools and museums. They will also use this work to illuminate what integrated STEM+C thinking and learning looks like across formal and informal learning environments. Based in some part on what they discover in this first phase, they will conduct the quantitative assessments with all (or at least most) students participating in the study
Designing Our World (DOW) was a four-year NSF-funded initiative in which the Oregon Museum of Science and Industry (OMSI) sought to promote girls’ pursuit of engineering careers through community-based programming, exhibition development, and identity research. The overarching aim of DOW was to engage girls ages 9–14 with experiences that illuminate the social, personally relevant, and altruistic nature of engineering. In addition to programming for girls, the project also included workshops for parents/caregivers, professional development for staff from community partners; and an exhibition
Front-line staff are an integral part of the visitor experience at museums and science centers across the country, facilitating activities and programs, leading classes, and more. But do these staff make a difference for visitor learning? And what are the most effective facilitation strategies and approaches? In 2013, the Oregon Museum of Science and Industry (OMSI) received funding from the National Science Foundation for a three-year study, Researching the Value of Educator Actions for Learning (REVEAL), to begin to address these questions. Building on the Design Zone exhibition, REVEAL
This paper argues that for citizens to be engaged with science they need to be able to share analytical techniques as well as the results of analyses. The category of "brand" which condenses the instrumental with the symbolic is both powerful in its uses and familiar to laypeople. The paper shows briefly how the categories of penicillin, biotechnology and applied science can be analysed in this way. It suggests that historians apply such an approach to the historiography of such new categories as synthetic biology and that this might be useful to curators of such topics in museums.
This paper discusses the concepts and practice of museum conservation, and the role of conservation in preserving both material and significance of objects. It explores the conservation of science and industry collections and the fact that the significance of many of these objects lies in their operation. It considers alternatives to operating original objects but emphasises the value of experiencing the real thing, and argues that visitors should be given greater physical access to museum objects, including being enabled to handle and work functioning objects. It finishes by calling for
This article concerns the conservation of historic doped fabric aeroplanes in the static museum setting of the Science Museum’s Flight gallery. It reviews historic sources, primarily archival and scientific research papers, to examine what doped fabric aeroplanes are made from, and why these materials were selected. It also discusses current conservation methods used for treating tears in the doped fabric covering of aeroplanes, and considers the ethical and practical limitations of these practices. An overview of the doped fabric aircraft collection currently held by the Science Museum is
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TEAM MEMBERS:
Ben RegelJannicke LangfeldtLouisa BurdenMary Ryan
In December the Science Museum will open Mathematics: The Winton Gallery. The new gallery tells mathematical stories in relation to a broad spectrum of fundamental human concerns. One of the key exhibits is a newly acquired machine for modelling storm surges in the North Sea. Designed by Japanese engineer Shizuo Ishiguro, the object offers a way to explore the far-reaching impact and relevance of mathematical work.
In 2012, the Conner Prairie Interactive History Park began work on the National Science Foundation-funded Prairie Science project. Its goal: to produce a framework for integrating informal science experiences into exhibitions, interpretation, and programs at historic sites and museums. From the outset, the core project team acknowledged that the task of integrating STEM (Science, Technology, Engineering, and Math) and history learning would challenge the norms of both disciplines and institutions. Conner Prairie is a history museum in Fishers, Indiana, with a long tradition of exploring novel
The Exhibit Designs for Girls’ Engagement (EDGE) project is a three-year Exploratorium-run, NSF-funded, research study aiming to identify the most important design attributes for engaging girls at STEM exhibits. We identified nearly 100 exhibit design attributes that had the potential for better engaging girls. To test those 100 attributes and their relationship to girls’ engagement, we studied more than 300 physics, engineering, math, and perception exhibits at the Exploratorium, the Science Museum of Minnesota, and the Arizona Science Center. The purpose of the EDGE research was to winnow
Flying Scotsman is arguably the world’s most famous steam locomotive. The engine, a standard bearer of British engineering excellence and modernity in the 1920s, became, in the 1960s, a symbol of the dying age of steam. As Britain’s post war austerity and increasingly lesser role in the world gave way to Harold Wilson’s modernising ‘white heat of technology’ Britain’s ‘cult of the past’ took greater hold. Wistful nostalgia for the past can be seen across the cultural landscape of the 1960s in books, poetry, music, television and film. With a marked increase in the rise and popularity of
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Designing Our World (DOW) empowers and promotes girls’ pursuit of engineering careers by cultivating networks of community stakeholders and engaging girls with experiences that illuminate the social, personally relevant and altruistic nature of engineering.
Flying Higher will develop a permanent hands-on exhibit that conveys the fundamentals of flight, technology, materials science, and NASA’s role in aeronautics for learners ages 3-12 years and their parents/caregivers and teachers. The exhibit, public programs, school and teacher programs, and teacher professional development will develop a pipeline of skilled workers to support community workforce needs and communicate NASA’s contributions to the nation and world. An innovative partnership with Claflin University (an historically black college) and Columbia College (a women’s liberal arts college) will provide undergraduate coursework in informal science education to support pre-service learning opportunities and paid employment for students seeking careers in education and/or STEM fields. The projects goals are:
1) To educate multi-generational family audiences about the principles and the future of aeronautics; provide hands-on, accessible, and immersive opportunities to explore state-of-the-art NASA technology; and demonstrate the cultural impact of flight in our global community.
2) To provide educational standards-based programming to teachers and students in grades K–8 on NASA-driven research topics, giving the students opportunities to explore these topics and gain exposure to science careers at NASA; and to offer teachers support in presenting STEM topics.
3) To create and implement a professional development program to engage pre-service teachers in presenting museum-based programs focused on aeronautics and engineering. This program will provide undergraduate degree credits, service learning, and paid employment to students that supports STEM instruction in the classroom, explores the benefits of informal science education, and encourages post-graduate opportunities in STEM fields.