I’ve Been Given COPUS (Classroom Observation Protocol for Undergraduate STEM) Data on My Chemistry Class... Now What?

The aim of this study was to develop and validate classroom observation instruments designed to reveal the emergence of engineering activities in primary school teachers in project-based learning. The instruments developed included the elementary school classroom observation protocol sheet (POKSD) and the elementary school engineering observation protocol assessment (PORSD). Task items were arranged based on indicators adapted from COPUS (Classroom Observation Protocol for Undergraduate STEM) items. The initial design of the instrument was consulted with three experts based on learning objectives. The instrument was then validated by three experts in the field of basic education. The instrument test was conducted on teachers and 5th-grade students of UPI Bandung Laboratory (N = 1). POKSD and PORSD were assessed by three raters. Scores from the three raters were then analyzed using two-way ANOVA. The results showed that the intra-class correlation of performance assessment instruments was adequate (ICC = 0.773). The findings of this study demonstrated that the instrument was reliable and could be used for the emergence of engineering activities in elementary school teachers.

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Development and validation of the Classroom Observation Protocol for Engineering Design (COPED)

Journal of Research in Science Teaching ◽

10.1002/tea.21557 ◽

2019 ◽

Vol 56 (9) ◽

pp. 1285-1305 ◽

Cited By ~ 1

Author(s):

Lindsay B. Wheeler ◽

Shannon L. Navy ◽

Jennifer L. Maeng ◽

Brooke A. Whitworth

Keyword(s):

Engineering Design ◽

Classroom Observation ◽

Observation Protocol ◽

Development And Validation

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The Classroom Observation Protocol for Undergraduate STEM (COPUS): A New Instrument to Characterize University STEM Classroom Practices

CBE—Life Sciences Education ◽

10.1187/cbe.13-08-0154 ◽

2013 ◽

Vol 12 (4) ◽

pp. 618-627 ◽

Cited By ~ 175

Author(s):

Michelle K. Smith ◽

Francis H. M. Jones ◽

Sarah L. Gilbert ◽

Carl E. Wieman

Keyword(s):

Teaching Practices ◽

Classroom Observation ◽

Critical Role ◽

Observation Data ◽

College Science ◽

Science Technology ◽

New Instrument ◽

Improving Student Learning ◽

And Mathematics ◽

Observation Protocol

Instructors and the teaching practices they employ play a critical role in improving student learning in college science, technology, engineering, and mathematics (STEM) courses. Consequently, there is increasing interest in collecting information on the range and frequency of teaching practices at department-wide and institution-wide scales. To help facilitate this process, we present a new classroom observation protocol known as the Classroom Observation Protocol for Undergraduate STEM or COPUS. This protocol allows STEM faculty, after a short 1.5-hour training period, to reliably characterize how faculty and students are spending their time in the classroom. We present the protocol, discuss how it differs from existing classroom observation protocols, and describe the process by which it was developed and validated. We also discuss how the observation data can be used to guide individual and institutional change.

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ADAPTATION OF A CLASSROOM OBSERVATION PROTOCOL FOR ACTIVE LEARNING

Proceedings of the Canadian Engineering Education Association (CEEA) ◽

10.24908/pceea.vi0.14927 ◽

2021 ◽

Author(s):

Allison Van Beek ◽

Susan McCahan

Keyword(s):

Active Learning ◽

Teaching And Learning ◽

Large Scale ◽

Teaching Practice ◽

Classroom Observation ◽

Learning Activities ◽

Large Classes ◽

Space Design ◽

Observation Protocol ◽

Future Work

In our work, we are focusing on the use of classroom observation to provide feedback on instructional space design. An initiative to redesign teaching space began a decade ago at a large, research-intensive institution. In September 2018, a large-scale (477 seat) active learning classroom became operational. The affordances of this space are intended to enable active teaching and learning in large classes. However, it is difficult to assess how successful this space is for active learning. A multi-year study has been undertaken to observe teaching practice in situ, with the goalof developing design principles for instructional space and technology that support the development, design, and implementation of teaching activities. Existing teaching observation protocols do not fully capture the interaction between the instructor and the space because such protocols were generally intended for other purposes. The goal is to develop a protocol that captures activities that are both intrinsic and extrinsic to teaching. This paper describes the development and use of an observation protocol. The core of the protocol is the wellknownTeaching Dimensions Observation Tool (TDOP). The scope of the TDOP is extended to active learning activities drawing from the Active Learning Classroom Observation Tool (ALCOT). The resulting extended protocol, TDOP+, was used for coding both live and recorded classroomobservations in the Winter 2020 term. This extended protocol allows the researchers to capture information that characterizes the intersection of pedagogy, space, and technology through Activity Theory. In future work, the data gathered through observations will be analyzed using theDifferentiated Overt Learning Activities (DOLA) framework, to provide insight into what types of teaching activity happens in a large-scale active learning classroom across STEM education and how active learning in large classrooms compares to pedagogy in other spaces.

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Correction for The Classroom Observation Protocol for Undergraduate STEM (COPUS): A New Instrument to Characterize STEM Classroom Practices

CBE—Life Sciences Education ◽

10.1187/lse.13.2.359 ◽

2014 ◽

Vol 13 (2) ◽

pp. 359-359 ◽

Cited By ~ 1

Keyword(s):

Classroom Practices ◽

Classroom Observation ◽

New Instrument ◽

Observation Protocol

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The Instructional Challenge in Improving Teaching Quality: Lessons from a Classroom Observation Protocol

Teachers College Record ◽

10.1177/016146811411600607 ◽

2014 ◽

Vol 116 (6) ◽

pp. 1-32

Author(s):

Drew Gitomer ◽

Courtney Bell ◽

Yi Qi ◽

Daniel Mccaffrey ◽

Bridget K. Hamre ◽

...

Keyword(s):

Teacher Evaluation ◽

Emotional Support ◽

Teaching And Learning ◽

Teaching Practice ◽

Classroom Observation ◽

Instructional Support ◽

Teaching Quality ◽

Self Report ◽

Classroom Organization ◽

Observation Protocol

Background/Context Teacher evaluation is a major policy initiative intended to improve the quality of classroom instruction. This study documents a fundamental challenge to using teacher evaluation to improve teaching and learning. Purpose Using an observation instrument (CLASS-S), we evaluate evidence on different aspects of instructional practice in algebra classrooms to consider how much scores vary, how well observers are able to judge practice, and how well teachers are able to evaluate their own practice. Participants The study includes 82 Algebra I teachers in middle and high schools. Five observers completed almost all observations. Research Design Each classroom was observed 4–5 times over the school year. Each observation was coded and scored live and by video. All videos were coded by two independent observers, as were 36% of the live observations. Observers assigned scores to each of 10 dimensions. Observer scores were also compared with master coders for a subset of videos. Participating teachers also completed a self-report instrument (CLASS-T) to assess their own skills on dimensions of CLASS-S. Data Collection and Analysis For each lesson, data were aggregated into three domain scores, Emotional Support, Classroom Organization, and Instructional Support, and then averaged across lessons to create scores for each classroom. Findings/Results Classroom Observation scores fell in the high range of the protocol. Scores for Emotional Support were in the midlevel range, and the lowest scores were for Instructional Support. Scores for each domain were clustered in narrow ranges. Observers were more consistent over time and agreed more when judging Classroom Organization than the other two domains. Teacher ratings of their own strengths and weaknesses were positively related to observation scores for Classroom Organization and unrelated to observation scores for Instructional Support. Conclusions/Recommendations This study identifies a critical challenge for teacher evaluation policy if it is to improve teaching and learning. Aspects of teaching and learning in the observation protocol that appear most in need of improvement are those that are the hardest for observers to agree on, and teachers and external observers view most differently. Reliability is a marker of common understanding about important constructs and observation protocols are intended to provide a common language and structure to inform teaching practice. This study suggests the need to focus our efforts on the instructional and interactional aspects of classrooms through shared conversations and clear images of what teaching quality looks like.

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