Measures students' views about the nature of knowledge and learning in the physical sciences along five non-orthogonal dimensions (structure of scientific knowledge, nature of knowing and learning, real-life applicability, evolving knowledge, & source of ability to learn.
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TEAM MEMBERS:
Andrew ElbyJohn FrederiksenChristina SchwarzBarbara White
Probes personal beliefs about the nature of science within 3 scientific dimensions (structure, methodology, and validity of science) and learning science within 3 cognitive dimensions (learnability, reflective thinking, and personal relevance of science).
Assesses science-related attitudes along seven dimensions: social implications of science, normality of scientists, attitude toward scientific inquiry, adoption of scientific attitudes, enjoyment of science lessons, leisure interest in science, & career interest in science.
Evaluates students' knowledge of three fields of science (earth, physical, and life), three elements of knowing and doing science (conceptual understanding, scientific investigation, and practical reasoning), and two overarching domains in science (the nature of science and themes-systems, models, and patterns-present in science).
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TEAM MEMBERS:
Nancy L. AllenJames E. CarlsonChristine A. Zelenak
The Undergraduate PDQ instruments are designed for undergraduate activities where time limitations or activity importance make rigorous assessment (e.g. using pre and post measures) impractical. PDQ stands for “pretty darn quick”, so named because you can use them for activities that you want to assess but don’t have the desire or time to do so more intensively. Both versions of the undergraduate PDQ instruments gather data on the extent to which respondents participated in the activity, their goals, and feedback from the leaders or participants on their impressions of the activity, their
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
Using the pre-college suite of surveys you can determine whether specific activities met your objectives and use this information to improve activities and make evaluation decisions. Specifically, the instruments assess the following topics: Course-taking plans for high school, whether participant intends to study science, engineering, or computer, what participant knows about what engineers, scientists, or computer scientists do, what factors (if any) about being an engineer, scientist, or computer scientist appeal to participant, events or persons that influenced participants' study plans
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
Measures children's global attitudes and knowledge about environmental issues, such as animals, energy, pollution, recycling, water, and general issues.
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TEAM MEMBERS:
Frank C. LeemingWilliam O. DwyerBruce A. Bracken
Measures students' attitudes towards science related to such factors as students' perceptions of the science teacher, anxiety toward science, value of science in society, self-concept toward science and desire to do science.
LAESE is designed to identify longitudinal changes in the self-efficacy of undergraduate students studying engineering. (see AWE Self-Efficacy Literature Overview and Information on Self-Efficacy). LAESE can be used with any students studying engineering. A High School instrument, based on LAESE, was developed and tested by the Female Recruits Explore Engineering (FREE) Project.
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
Assesses children's interest in, attitude towards, and experiences in science and technology, as well as their opinion about environmental challenges and career aspirations.