The Fennema-Sherman Mathematics Attitude Scale measures student attitudes towards mathematics. The survey consists of 4 subscales, each designed to measure confidence, math as a male domain, teacher perception, and usefulness.
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 Attitudes Toward Mathematics Inventory (ATMI) is a 40 question, 4-factor survey designed to measure high school and college students’ attitudes toward mathematics. Unlike other math assessments, the ATMI was designed to be brief while also capturing multiple factors that contribute to one’s attitude about math.
The tool was created by 4H Nebraska to measure students’ (7-10th graders ) learning and attitudes towards science, technology, engineering, and mathematics. The tool also assesses students’ attitude about GPS (Global Positioning Systems) and GIS (Geographical Imaging Systems).
To evaluate the reasons for students in abandoning the science, engineering, and medical (SEM) pipeline while others choosing to continue. The influence of family and teachers on students’ goals in science, activities, and science identity is considered.
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TEAM MEMBERS:
Pamela R. AschbacherErika LiEllen J. Roth
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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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.
The inventory consists of eleven items, each representing a different skill in the science inquiry process. Youth are prompted to respond to each statement using a 4-point Likert scale indicating how often they practice each of the items when doing science: Never (1), sometimes (2), usually (3), and always (4). Recommended scoring of the SPSI is the calculation of a composite science process skills score. This is calculated by summing the individual ratings for each item. The score range for the composite score is 11-44.
Visitors to the Science Museum of Minnesota provided feedback on the books, How Small Is Nano? and Is That Robot Real? in order to assess the books and their ability to impart knowledge of nanoscience. The visitors, 63 adults in all, read one of the books to the child or children accompanying them, then answered a series of questions about their experience including their interest in and enjoyment of the book they read, as well as the age appropriateness of the book. The report compares and contrasts the two books throughout.
This article describes the goals and methodology of the Field Museum in Chicago's Calumet Environmental Education Program (CEEP) in the Calumet region of southeast Chicago. The program engages students grades 4-12 in science by letting them apply what they have learned to real-life community conservation issues. Evaluation highlights and lessons learned are also included.