Purpose: This project team will fully develop and test Cyberchase Fractions Quest, a web-based mathematics game for students in grade 3 and 4. Research shows that inadequate understanding of fractions can persist from early grades through higher education, and that success in fractions predicts future success in mathematics and other STEM subjects.
Project Activities: During Phase I (completed in 2016), the team developed a prototype of Cyberchase Fractions Quest, including an interactive number line game with four levels of challenges, and a tool to scaffold learning through hints and provide encouragement as students progress. At the end of Phase I, the research team conducted a pilot study over one week with 60 grade 4 students, half of whom were randomly assigned to use the prototype and half assigned to paper-based fractions activities. Results revealed that the prototype functioned as intended, that students were engaged during gameplay, and that from pre- to post-test, students using the prototype increased significantly in their knowledge of number line problems compared to the control group. In Phase II, the team will finalize the design, artwork, and animation, the formative and summative assessment component, and learning management system. After development is complete, the researchers will carry out a pilot study to assess the usability and feasibility, fidelity of implementation, and promise of the game to improve student learning of fractions over a 5-week period. The study will include four classrooms of grade 3 students, two of which will be randomly assigned, to use the games to supplement in-class lessons while the others will use paper-based activities. The researchers will compare pre-and-post scores for student learning of fractions. The study will also track teacher implementation.
Product: The final product is Cyberchase Fractions Quest—a math game based on the storyline of PBS children's television series, Cyberchase. In the game, students in grades 3 and 4 will apply learning fractions within three contexts: areas and regions (such as shapes), sets (groups of objects), and on a number line. The game will identify specific areas where students struggle and will introduce challenges to support individualized learning. Similar to other popular game apps, student will receive immediate feedback from one to three stars based on how well they perform on each challenge as well as in-game rewards as they progress toward mastery. The game will include teacher resources for classroom implementation, and an educator dashboard presenting results.
In prior projects, including a 2015 ED/IES SBIR award, the team developed two immersive multiplayer virtual game environments. In Eco and Colony, middle school students collaboratively apply scientific practices within the virtual worlds to address challenges, such as the availability of resources and energy and maintaining clean water. With this Phase I funding, the team is developing a prototype of a teacher dashboard designed to improve classroom implementation of the virtual environments. The prototype will automatically generate reports on individual student contributions to the progress of the classroom-wide game, and track progress in mastering curricular learning goals. In the Phase I pilot research for three middle school social studies classrooms, the project team will examine whether the dashboard functions as planned, if teachers are able to use the dashboard to feasibly integrate the game within the classroom environment, and if teachers are able to use reports to track student progress.
With this Phase I funding, the project team will develop and test a prototype of the Toddler App and Cane which is intended to improve functional and adaptive school readiness skills for toddlers with visual impairments. The prototype will include a wearable hardware-based cane that wraps around a child's waist and provides tactile and audio cues to facilitate walking, a curriculum with game activities and walking routes, and an app that provides updates to special education practitioners and parents on their children's progress. In a pilot study with 10 toddlers with visual impairments, and their teachers and parents, the researchers will examine whether the prototype functions as planned, whether toddlers are engaged while using the prototype, and if teachers and parents believe the fully developed intervention will lead to increases in independence and school readiness.
In prior research and development, the project team developed PocketLab, a set of web-based hands-on science simulations for middle school classrooms. With this Phase I funding, the team will develop and test a prototype of CloudLab, a classroom management platform to extend the functionality of PocketLab. The prototype will include a portal so that a class of students can collaborate on experiments, a lab notebook to analyze experimental data with graphing tools, and a teacher dashboard to monitor student progress in real time. In the Phase I pilot research, with six middle school teachers and 150 students, the project team will examine whether the prototype functions as planned, whether teachers are able to integrate it within the classroom environment, and whether students are engaged while using the prototype.
In prior research and development (in part supported by a 2014 ED/IES SBIR award), the project team developed Mission U.S., a series of web- and app-based games for topics in U.S. history. With this Phase I funding, the team will extend Mission U.S. by developing and testing a prototype of a virtual reality (VR) platform to immerse students in transformational moments in U.S history and to guide document-based investigations. The prototype of Mission U.S.: Time Snap will consist of VR goggles that present history content, and a website to host mission briefs to prepare student inquiry, worksheets to facilitate reflection, and an embedded assessment. At the end of Phase I in a pilot study with 30 students in one classroom, the researchers will examine whether the VR platform and the website function as planned, if students are engaged with the system, and whether student content knowledge of a historical event improves from pre- to post-test.
The U.S. Education system is becoming more and more diverse and educators must adapt to continue to be effective. Educators must embrace the diversity of language, color, and history that comprises the typical classroom; this means becoming culturally competent. In doing so, comes with it the prospect of using culture to enhance the learning experience for students and the educator. Although the process of becoming culturally competent can be outlined, the realization of a culturally competent educator depends on changing one’s own perceptions and beliefs. The need for cultural competency and
Science educators in the United States are adapting to a new vision of how students learn science. Children are natural explorers and their observations and intuitions about the world around them are the foundation for science learning. Unfortunately, the way science has been taught in the United States has not always taken advantage of those attributes. Some students who successfully complete their K–12 science classes have not really had the chance to “do” science for themselves in ways that harness their natural curiosity and understanding of the world around them.
The introduction of
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National Academies of Sciences, Engineering, and Medicine
Given the importance of learning to economic and life success, this review seeks to broaden the conception of learning beyond traditional formal education. Learning occurs every day in many ways and in a range of settings. This broad scope of learning--termed "informal learning"--is increasingly important in the rapidly changing knowledge economy. As such, in this review paper, we examine the different types of informal learning, their opportunities and challenges, and their issues of access and equity. Spanning multiple disciplines, e draw particular attention to the workplace and adult
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Michelle Van NoyHeather JamesCrystal Bedley
It’s important to communicate the excitement and value of NSF-funded research. This tool (formatted as a Prezi presentation) helps you do that with assistance from NSF public affairs experts, exploring options for communicating your research and broader impacts.
Students in the U.S. educational system are increasingly diverse, and this diversity is reflected in science, technology, engineering, and mathematics (STEM) fields. Diversity in education encompasses students from many races, genders, and socioeconomic backgrounds; students who speak a variety of languages; and students from many cultures. For instance, ethnic diversity increased by 5% across primary and secondary public schools from 2000 to 2007 (Aud, Fox, & KewalRamani, 2010). Diversity is also evident in the socioeconomic make-up of students, with almost half of 4th graders in public
This project will develop standardized, exportable and comparable assessment instruments and models for Women In Engineering (WIE) programs nationwide, thus allowing them to assess their program's activities and ultimately provide data for making well-informed evaluations.
To accomplish this goal, the principal investigators at the University of Missouri and Penn State University will work over a three-year period with their institutions' WIE programs and three cooperating programs at Rensselaer Polytechnic Institute, Georgia Tech, and University of Texas at Austin. With these five programs that collectively represent a variety of private and public, years of experience for WIE directors and student body characteristics, the investigators will pilot, revise, implement, conduct preliminary data analysis and disseminate easy-to-access, reliable and valid assessment instruments. The principles of formative evaluation will be applied to all instruments and products. All institutions will use the same set of instruments, thus allowing them to have access to powerful benchmarking data in addition to the data from each of their respective institutions.
A prior project, the Women's Experience in College Engineering Project (WECE) sought to characterize the factors that influence women students' experiences and decisions by studying college environments, events and support programs that affect women's satisfaction with their engineering major, and their decisions to persist or leave these majors. In contrast to WECE's macro-level and student focus, this proposal's target audience is WIE directors, with a focus on WIE programs, not students.
Women in Engineering programs around the United States are a crucial part of our country's response to the need for more women in engineering professions. There are about 50 WIE programs nationwide. Half have expressed interest in this effort. WIE directors will benefit by having ready-made assessment tools that will allow them to collect data on programs, evaluate these programs, and make decisions on how to revise programs and / or redistribute limited resources to maximize overall program effectiveness. Data from these instruments will also provide substantiated evidence for administrators, advisory boards and potential funding agencies. Finally, because these instruments will be available nationwide, programs will have the opportunity to take advantage of powerful benchmarking data for their decision-making processes.
This project provides the next logical step in the national movement to recruit and retain women in engineering.
Learn how to create opportunities for young people from low-income, ethnically diverse communities to learn about growing food, doing science, and how science can help them contribute to their community in positive ways. The authors developed a program that integrates hydroponics (a method of growing plants indoors without soil) into both in-school and out-of-school educational settings.