Pamela S. Lottero‐Perdue scite author profile

This mixed methods study examines perspectives on failure in the classroom by elementary teachers new to teaching engineering. The study participants included 254 teachers in third, fourth, and fifth grade who responded to survey questions about failure, as well as a subset of 38 of those teachers who participated in interviews about failure. The study first examines the literature about failure in the contexts of engineering and education. Failure is positioned as largely normative and expected in engineering, whereas in education, learning and failure have a more tenuous relationship. Identity, failure avoidance, failure as part of the learning process, growth and fixed mindset, resilience, perseverance, and grit are addressed in a discussion of failure and education. Quantitative and qualitative research methods were utilized to examine how participants: reacted to the words failure or fail, reported allowing students to fail or revise their work, considered how failure should be avoided in education, considered how failure may be construed as a learning experience, and reported using the words failure or fail in their classrooms. Conclusions from the study include that: failure has a largely negative connotation within education and by teachers, which influences how teachers use the words fail and failure and create failure experiences for their students; many teachers practice resilience and perseverance and encourage similar practices in their students with respect to mistakes in the classroom, which serves as a helpful yet somewhat inaccurate analogue for failure in engineering design; and there is evidence that many teachers have adopted a growth mindset and encourage this mindset in their classrooms-however, there are some challenges to a true adoption of this mindset by teachers.

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Elementary girls' science reading at home and school

Ford¹,

Brickhouse²,

Lottero‐Perdue³

et al. 2006

Sci. Ed.

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Elementary Teachers’ Reported Responses to Student Design Failures

Lottero‐Perdue¹

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Elementary Teachers’ Reflections on Design Failures and Use of Fail Words after Teaching Engineering for Two Years

Lottero‐Perdue¹,

Parry²

2017

Journal of Pre-College Engineering Education Research (J-PEER)

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This mixed-methods study examines how teachers who have taught one or two units of the Engineering is Elementary (EiE) curriculum for two years reported on: students' responses to design failure; the ways in which they, the teachers, supported these students and used fail words (e.g. fail, failure); and the teachers' broad perspectives and messages to students about failure. In addition, the study explores how strategies, perspectives, messages, and fail word use may change after two years of engineering instruction. This study builds on previous work about elementary teachers': perspectives on failure prior to teaching engineering, and responses to and perspectives on failure after teaching EiE unit(s) for one year. Data collected included 74 surveys, containing both quantitative and qualitative items, and ten in-depth, semi-structured interviews. Quantitative data were analyzed via non-parametric methods, and qualitative analysis involved an iterative search for codes and themes. The convergent mixed-methods design enabled comparison across quantitative and qualitative findings. Findings included that the elementary engineering classroom is a complex space in which teams may or may not experience design failure; for those teams that do, they-and, in turn, their teachers-may respond to this experience in a wide range of ways. Also, after two years of teaching engineering, teachers felt more comfortable preparing students for design failure experiences, and responding when design failure occurred. Most also felt more comfortable using fail words, and when they used these words, learned to do so with context and care.

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Engineering mindsets and learning outcomes in elementary school

Lottero‐Perdue

Lachapelle

2020

J of Engineering Edu

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Background: Students may exhibit growth mindsets, where intelligence is seen as malleable and failures prompt more effort and new approaches, or fixed mindsets, where intelligence is seen as immutable and failures indicate lack of intelligence. One's mindset in general may be different from that for a particular domain such as engineering. Having a growth mindset predicts more positive learning outcomes. Purpose: We described the general and engineering mindsets of students in fifth-grade U.S. classrooms (ages 10 and 11) who received engineering instruction. We explored how general mindsets may predict engineering learning outcomes and how engineering mindsets may be predicted by general mindset and other variables. Design/Method: We collected General Mindset (GM) and Engineering Mindset (EM) surveys from 2,086 fifth graders. We analyzed and correlated their GM and EM scores and survey item responses. Using hierarchical linear modeling, we measured the contribution of GM to models predicting EM and engineering learning outcomes and identified factors that predicted EM. Results: Almost three quarters of students who submitted EM surveys agreed with a growth mindset. Students with higher GM scores had higher engineering postassessment scores. Those who had a higher socioeconomic status did not receive special education services, experienced more whole-class discussion and activity, or had a higher GM score were more likely to have a more growth-minded EM score. Conclusions: Engineering education should help students see that they can grow in their capacities to engineer. Instructional interventions may positively impact mindset, which could be particularly important for some students. Engineering design may encourage an especially growth-minded approach to failure experiences.

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