Darren L. Broder scite author profile

Darren L. Broder

3Publications

49Citation Statements Received

40Citation Statements Given

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Siena College

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Assessing students’ conceptual knowledge of electricity and magnetism

McColgan

Finn

Broder

et al. 2017

Phys. Rev. Phys. Educ. Res.

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We present the Electricity and Magnetism Conceptual Assessment (EMCA), a new assessment aligned with second-semester introductory physics courses. Topics covered include electrostatics, electric fields, circuits, magnetism, and induction. We have two motives for writing a new assessment. First, we find other assessments such as the Brief Electricity and Magnetism Assessment and the Conceptual Survey on Electricity and Magnetism not well aligned with the topics and content depth of our courses. We want to test introductory physics content at a level appropriate for our students. Second, we want the assessment to yield scores and gains comparable to the widely used Force Concept Inventory (FCI). After five testing and revision cycles, the assessment was finalized in early 2015 and is available online. We present performance results for a cohort of 225 students at Siena College who were enrolled in our algebra-and calculus-based physics courses during the spring 2015 and 2016 semesters. We provide pretest, post-test, and gain analyses, as well as individual question and whole test statistics to quantify difficulty and reliability. In addition, we compare EMCA and FCI scores and gains, and we find that students' FCI scores are strongly correlated with their performance on the EMCA. Finally, the assessment was piloted in an algebra-based physics course at George Washington University (GWU). We present performance results for a cohort of 130 GWU students and we find that their EMCA scores are comparable to the scores of students in our calculus-based physics course.

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Effect of Night Laboratories on Learning Objectives for a Nonmajor Astronomy Class

Jacobi¹,

Newberg²,

Broder³

et al. 2008

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We tested the effectiveness on learning of hands-on, night-time laboratories that challenged student misconceptions in a non-major introductory astronomy class at Rensselaer Polytechnic Institute. We present a new assessment examination used to assess learning in this study. We were able to increase learning, at the 8.0 sigma level, on one of the moon phase objectives that was addressed in a cloudy night activity. There is weak evidence of some improvement on a broader range of learning objectives. We show evidence that the overall achievement levels of the four sections of the class is correlated with the amount of clear whether the sections had for observing, even though the learning objectives were addressed primarily in activities that did not require clear skies. This last result should be confirmed with future studies. We describe our first attempt to cycle the students through different activity stations in an attempt to handle 18 students at a time in the laboratories, and lessons learned from this.

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Uncertainty Propagation in Modern Physics Lab

Hassel¹,

Broder²,

Cummings³

2018

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Uncertainty or error analysis is an important skill to be developed throughout the undergraduate physics laboratory curriculum. Numerical estimation and propagation of measurement uncertainties are a crucial part of interpreting and reporting laboratory results. The ability to clearly identify, explain and evaluate measurement uncertainty is also an important part of the broader goal of improving student writing and to modify poor writing habits. Modern Physics Lab provides a particularly opportune time to develop error propagation in detail. This paper examines uncertainty propagation in two example lab activities.

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Darren L. Broder

Assessing students’ conceptual knowledge of electricity and magnetism

Effect of Night Laboratories on Learning Objectives for a Nonmajor Astronomy Class

Uncertainty Propagation in Modern Physics Lab

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