Ingrid Novodvorsky scite author profile

The theoretical construct of teacher noticing has allowed mathematics teacher educators to examine teacher thinking and practice by looking at the range of activities that teachers notice in the classroom. Guided by this approach to the study of teacher thinking, the central goal of this exploratory study was to identify what prospective science teachers notice when evaluating evidence of student understanding in another teacher's inquiry-based unit. Our results are based on the qualitative analysis of 43 prospective teachers' evaluations of assessment evidence presented to them in the form of a video case and associated written artifacts. Analysis of our data revealed two major categories of elements, Task-General and Task-Specific, noticed by our study participants. Task-General elements included attention to learning objectives, independent student work, and presentation issues and they often served to guide or qualify the specific inquiry skills that were evaluated. Task-Specific elements included the noticing of students' abilities to perform different components of an investigation. In general, study participants paid attention to important general and specific aspects of student work in the context of inquiry. However, they showed preferential attention to those process skills associated with designing an investigation versus those practices related to the analysis of data and generation of conclusions. Additionally, their interpretations of assessment outcomes were largely focused on the demonstration of general science process skills; much less attention was paid to the analysis of the epistemological validity or scientific plausibility of students' ideas. Our results provide insights into the design of meaningful learning experiences for prospective teachers that elicit, challenge, and enrich their conceptions of student understanding in the context of inquiry. ß

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What do science teachers consider when selecting formative assessment tasks?

Tomanek

Talanquer

Novodvorsky

2008

J Res Sci Teach

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The purpose of this qualitative exploratory study was to identify factors that influenced prospective and experienced secondary level science teachers' reasoning as they evaluated or selected tasks to formatively assess their students' understanding of scientific concepts. The analysis of the coded written responses revealed two categories of factors that influenced the teachers' reasoning: (1) characteristics of the task and (2) characteristics of students or the curriculum. Characteristics of the task related to qualities of the task regardless of the learning environment in which it would be used, such as the level of student thinking demanded by a task. Characteristics of the students and the curriculum related to the learning environment in which an assessment task would be implemented, such as students' abilities to complete the task. Both prospective and experienced teachers' task evaluations were influenced by the same factors related to the characteristics of the task, although their interpretations of the meaning of each factor varied. In addition, experienced teachers' task evaluations were more likely than prospective teachers to be influenced by factors related to characteristics of students and the curriculum. The findings are discussed as a conceptual framework that presents the identified factors along three different dimensions: (1) the influence of task, student, and curriculum characteristics, (2) the influence of expectations for success, and (3) the influence of teaching experience. ß

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Revealing Student Teachers’ Thinking through Dilemma Analysis

Talanquer

Tomanek

Novodvorsky

2007

Journal of Science Teacher Education

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Factors Influencing Entering Teacher Candidates’ Preferences for Instructional Activities: A glimpse into their orientations towards teaching

Talanquer

Novodvorsky

Tomanek

2009

International Journal of Science Education

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Supporting and Evaluating Learning Outcomes Assessment through Academic Program Reviews

Novodvorsky¹,

Tomanek²,

Foor³

et al. 2015

Assessment Update

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