Your search keyword '"Capps, Daniel K."' showing total 17 results

1. Professional learning for preservice science teachers: shifts in self-regulated learning practices and questioning skills

Author

Tran, Hong H., Capps, Daniel K., and Cleary, Timothy J.

Published

2024

2. Integrative Analysis Using Big Ideas: Energy Transfer and Cellular Respiration

Author

Shemwell, Jonathan T., Capps, Daniel K., Fackler, Ayca K., and Coogler, Carlson H.

Abstract

Big ideas in science education are meant to be interpretive frameworks that empower student learning. Unfortunately, outside of the broad conception of scientific evaluation, there are few theoretical explanations of how this might happen. Therefore, we contribute one such explanation, an instructional concept called integrative analysis wherein students use a big idea to interconnect isolated scenarios and enrich their meanings. We illustrate the characteristics and value of integrative analysis within an empirical study of student learning in 9th-grade biology. The study focused on using energy transfer as a big idea for teaching cellular respiration. Fifty-nine students were randomly assigned to one of two instructional conditions. In the "analysis" condition, students processed a set of three manipulatives representing cellular respiration molecules; then, they abstracted the deep energy transfer structure of these manipulatives as a big idea. In the "recognition" condition, students processed the same molecule-manipulatives, but without energy interpretations. Instead, they constructed additional manipulatives using novel materials. Then, students in both conditions received an identical lesson where they used their knowledge of the manipulatives to learn about one cellular respiration process, glycolysis. Specifically, students processed a sequence of three texts describing glycolysis, annotating the texts with either their deep energy transfer structure (analysis condition) or their contextualized knowledge of the manipulatives (recognition condition). A posttest showed that in the analysis condition, this process was significantly integrative as evidenced by analysis students' advantage over recognition students in connecting glycolysis to novel phenomena and generating causal explanations about glycolysis.

Published

2023

3. A Model-Based Approach to Teaching about Solutions

Author

Eymur, Gülüzar and Capps, Daniel K.

Abstract

We present an example of a novel, model-based approach to instruction in which learners constructed a representation of a specific phenomenon, evaluated their representation, and then revised it, via an abstraction process, to construct a model. The example took place in high school in the context of solution chemistry. The aim of the instruction was to support students in developing a generalized model for a homogenous mixture where the ratio of the solute and solvent remains the same throughout the solution. Students also developed a general model of the effect of pressure and temperature on solubility. Pre- and posttests were administered to provide evidence of student learning because of the experience.

Published

2022

4. Moving beyond the Model as a Copy Problem: Investigating the Utility of Teaching about Structure-Preserving Transformations in the Model-Referent Relationship

Author

Capps, Daniel K. and Shemwell, Jonathan T.

Abstract

An important research objective in modelling instruction is defining what students should learn about the model-referent relationship, as when unguided, they tend to errantly think of models as literal interpretations of their referents. Restating this problem we say students should learn about structure-preserving transformations between models and referents; including: what gets transformed, how it is transformed, and directions of information flow in transformation. To define what students should learn of this triumvirate, we introduce two explanatory statements: models are abstractions and models have transferability. We then investigated how readily students could learn about abstraction and transferability, and how this learning related to literal interpretation, by comparing pre- and posttest scores of modelling knowledge for students (n = 175) who participated in a modelling activity that provided experiences with abstraction and transferability. A control group (n=49) took identical tests but received no relevant instruction. Results showed that modelling students: (1) improved their capability to generate abstract models; (2) gained in their understanding that models represented their referents under transformation; and (3) consequently, did not think of models as literal interpretations. Lack of gains in the control ruled out a testing effect. We concluded that knowledge of structure-preserving transformations is a viable and valuable object of instruction.

Published

2020

5. Alternative Conceptions Concerning the Earth's Interior Exhibited by Honduran Students

Author

Capps, Daniel K., McAllister, Meredith, and Boone, William J.

Abstract

Although multiple studies of misconceptions in Earth science have been completed using samples of North American and European students and teachers, little research has been conducted on alternative Earth science conceptions in developing countries. The current study was conducted in 5th- and 6th-grade classrooms in eastern Honduras, Central America. The goal of the study was to gather data documenting Honduran students' conceptions of the Earth's interior. This qualitative study used participant-generated drawings and interviews to access students' conceptions of the Earth's interior. Results suggest that Honduran students, ages 9-14 y, express varying levels of understanding regarding this science concept. Many exhibit alternative conceptions, including nonconcentric layers in the Earth; the presence of physical objects, such as houses, inside the Earth; and the existence of mythical creatures within the Earth. This study provides data relevant to geoscience education in Honduras, has implications for geoscience education in tectonically active regions where Earth science is not a major part of the curriculum, and offers suggestions for teaching abstract Earth science concepts to concrete learners. The study also provides information for educators that teach students who are recent immigrants from Honduras and for those who teach students of limited language and/or reading proficiency.

Published

2013

6. Using Inquiry and Tenets of Multicultural Education to Engage Latino English-Language Learning Students in Learning about Geology and the Nature of Science

Author

Meyer, Xenia S., Capps, Daniel K., Crawford, Barbara A., and Ross, Robert

Abstract

Traditional school science instruction has been largely unsuccessful in reaching diverse student groups and students from, in particular, underrepresented backgrounds. This paper presents a case study of an urban, dual-language middle school classroom in which the teacher used an alternative instructional approach, involving her students in an authentic geological investigation with fossils. In this instructional setting, the teacher successfully engaged her English-language learning students from Latino backgrounds in science learning through inquiry, instructionally congruent science teaching strategies, and explicit instruction in nature of science. Students participating in the geological investigation interacted with practicing scientists. This instructional approach modeled the activities of science and better connected diverse students to the scientific community of practice. The practices used in this classroom provide a compelling example of how science instruction can be carried out in a way that makes science accessible despite linguistic differences and engages students in the activities of science, who otherwise might not be.

Published

2012

7. 'If you wanted to take this model and throw nitrogen at it, it would fit': synthesis approach to modelling to learn about biogeochemical cycles.

Author

Fackler, Ayça K. and Capps, Daniel K.

Subjects

*BIOGEOCHEMICAL cycles, *SCIENCE education, *SCIENTIFIC models, *STUDENT attitudes

Abstract

The literature on scientific modelling practices in science education has provided a fruitful discussion on how learners tend to view models vs. how and what they should think about them. One approach is to teach students that models are abstractions so that they do not view them as a copy of phenomena they represent. Although teaching students that models are abstractions is a successful strategy in modelling instruction, we still do not know how students engage in and work towards the process of abstraction while they develop a model to understand scientific ideas. This qualitative study examines how a group of undergraduate and graduate students in an upper-level ecosystem ecology course at a research university in the southeastern part of the United States engage in a task that requires constructing an abstract representation of how biogeochemical cycles work by using a specific approach to modelling, namely synthesis modelling. Data corpus entailed paired interviews with ten students and their artefacts. The findings centred upon four episodes regarding how students engage in abstraction through a synthesis approach to modelling as they make sense of the system of biogeochemical cycles: working with surface similarities, abstracting ideas, abstracting structures, and checking on model-source fit. [ABSTRACT FROM AUTHOR]

Published

2024

8. What Are Middle School Students Talking about during Clicker Questions? Characterizing Small-Group Conversations Mediated by Classroom Response Systems

Author

Barth-Cohen, Lauren A., Smith, Michelle K., and Capps, Daniel K.

Abstract

There is a growing interest in using classroom response systems or clickers in science classrooms at both the university and K-12 levels. Typically, when instructors use this technology, students are asked to answer and discuss clicker questions with their peers. The existing literature on using clickers at the K-12 level has largely focused on the efficacy of clicker implementation, with few studies investigating collaboration and discourse among students. To expand on this work, we investigated the question: Does clicker use promote productive peer discussion among middle school science students? Specifically, we collected data from middle school students in a physical science course. Students were asked to answer a clicker question individually, discuss the question with their peers, answer the same question again, and then subsequently answer a new matched-pair question individually. We audio recorded the peer conversations to characterize the nature of the student discourse. To analyze these conversations, we used a grounded analysis approach and drew on literature about collaborative knowledge co-construction. The analysis of the conversations revealed that middle school students talked about science content and collaboratively discussed ideas. Furthermore, the majority of conversations, both ones that positively and negatively impacted student performance, contained evidence of collaborative knowledge co-construction.

Published

2016

9. Over Reported and Misunderstood? A Study of Teachers' Reported Enactment and Knowledge of Inquiry-Based Science Teaching

Author

Capps, Daniel K., Shemwell, Jonathan T., and Young, Ashley M.

Abstract

Science education reforms worldwide call on teachers to engage students in investigative approaches to instruction, like inquiry. Studies of teacher self-reported enactment indicate that inquiry is used frequently in the classroom, suggesting a high level of proficiency with inquiry that would be amenable to inquiry reform. However, it is unclear whether the high frequency of self-report is based on sound knowledge inquiry. In the absence of sound knowledge, high rates of self-reported enactment would be suspect. We conducted a study to measure teachers' knowledge of inquiry as it related to the known, high frequency of reported enactment. We developed a multidimensional survey instrument using US reform documents and administered it to 149 K-12 teachers at a national science teachers' conference. The majority of the teachers surveyed did not report inquiry enactment based on well-structured knowledge of inquiry. Interviews with participants showed how teachers could readily map non-inquiry activities onto inquiry statements taken directly from reform documents. From these results we argue that teachers often believed they were enacting inquiry, when likely they were not. We further reason that teachers may struggle to interpret and enact inquiry-related requirements of science education reform and will need support distinguishing inquiry from non-inquiry practices.

Published

2016

10. Grappling with Long-term Learning in Science: A Qualitative Study of Teachers' Views of Developmentally Oriented Instruction

Author

Shemwell, Jonathan T., Avargil, Shirly, and Capps, Daniel K.

Abstract

The shift in science education toward deeper, more integrated learning of domain content and scientific practices requires that teachers steer clear of strategies that promote the steady accumulation of more superficial knowledge and capabilities. Instead, teachers must invest in a continuous and gradual process of long-term growth in students' capacity to think and act scientifically. Scholars call this investment taking a developmental approach to learning. It stands to reason that developmental approaches would involve teachers in different ways of thinking about instruction compared to short-term, accumulation approaches. Yet, little is understood about these potentially new ways of thinking (for us, "views"). Therefore, we conducted a qualitative study to describe and illustrate ways in which teachers' views of instruction can be developmental. The study was based on interviews with 12 teachers about their experiences of using a curriculum that was developmentally oriented in that it prioritized gradual deepening of intellectual capacity. Selecting three teachers whose views of teaching and learning offered maximum contrast in their degree of developmental orientation, we analyzed their interview transcripts to reveal essential characteristics of a developmental view of instruction in our context. When taking a developmental view, teachers (i) saw students as learning to be scientists; (ii) prioritized big ideas; (iii) saw learning as immersion; and (iv) expected gradual improvement. We combined these elements to propose a general model for a developmental view of teaching and learning: believing in transformative outcomes and investing in the process of gradual change. We argue that these findings provide useful and informative ideas for understanding ways in which teachers can effectively approach instruction in the current era of reform.

Published

2015

11. Supporting Teachers to Attend to Generalisation in Science Classroom Argumentation

Author

Shemwell, Jonathan T., Gwarjanski, Kalee R., Capps, Daniel K., Avargil, Shirly, and Meyer, Joanna L.

Abstract

In scientific arguments, claims must have meaning that extends beyond the immediate circumstances of an investigation. That is, claims must be generalised in some way. Therefore, teachers facilitating classroom argumentation must be prepared to support students' efforts to construct or criticise generalised claims. However, widely used argumentation support tools, for instance, the claim-evidence-reasoning (CER) framework, tend not to address generalisation. Accordingly, teachers using these kinds of tools may not be prepared to help their students negotiate issues of generalisation in arguments. We investigated this possibility in a study of professional development activities of 18 middle school teachers using CER. We compared the teachers' approach to generalisation when using a published version of CER to their approach when using an alternate form of CER that increased support for generalisation. In several different sessions, the teachers: (1) responded to survey questions when using CER, (2) critiqued student arguments, (3) used both CER and alternate CER to construct arguments, and (4) discussed the experience of using CER and alternate CER. When using the standard CER, the teachers did not explicitly attend to generalisation in student arguments or in their own arguments. With alternate CER, the teachers generalised their own arguments, and they acknowledged the need for generalisation in student arguments. We concluded that teachers using frameworks for supporting scientific argumentation could benefit from more explicit support for generalisation than CER provides. More broadly, we concluded that generalisation deserves increased attention as a pedagogical challenge within classroom scientific argumentation.

Published

2015

12. Inquiry-Based Instruction and Teaching about Nature of Science: Are They Happening?

Author

Capps, Daniel K. and Crawford, Barbara A.

Abstract

Anecdotal accounts from science educators suggest that few teachers are teaching science as inquiry. However, there is little empirical evidence to support this claim. This study aimed to provide evidence-based documentation of the state-of-use of inquiry-based instruction and explicit instruction about nature of science (NOS). We examined the teaching practice and views of inquiry and NOS of 26, well-qualified and highly motivated 5th-9th-grade teachers from across the country in order to establish the extent to which their views and practice aligned with ideas in reform-based documents. We used a mixed-methods approach analyzing lesson descriptions, classroom observations, videotape data, questionnaires, and interviews to assess teaching practice and views of inquiry and NOS of these teachers. We also determined the relationships between teachers' views and their teaching practice. Findings indicated the majority of these teachers held limited views of inquiry-based instruction and NOS. In general, these views were reflected in their teaching practice. Elements of inquiry including abilities, understandings, and essential features were observed or described in less than half the classrooms. Most commonly, teachers focused on basic abilities to do inquiry instead of the essential features or important understandings about inquiry. When aspects of inquiry were present, they were generally teacher-initiated. There was also little evidence of aspects of NOS in teachers' instruction. This study provides empirical evidence for the claim that even some of the best teachers currently struggle to enact reformed-based teaching. Further, it highlights the critical need for an agreement upon definition of inquiry-based instruction and the need to develop appropriate and feasible assessments that specifically target inquiry to track changes in teachers' views and practice. Important implications include the heightened need for rigorous and continuous professional development to support teachers in learning about inquiry and NOS and how to enact reform-based instruction in classrooms.

Published

2013

13. A Review of Empirical Literature on Inquiry Professional Development: Alignment with Best Practices and a Critique of the Findings

Author

Capps, Daniel K., Crawford, Barbara A., and Constas, Mark A.

Abstract

This review brings together the literature on inquiry-based teaching and learning and science teacher professional development (PD). We present a targeted critical review of research focused specifically on the nature of PD programs purported to emphasize inquiry. Our review analyzes the features of each program and critiques the reported outcomes of each study. Findings from this review suggest a general alignment with recommended features of effective PD as outlined in the literature with a few notable exceptions, including: supporting teachers in developing inquiry-based lesson plans, providing authentic inquiry experiences, and focusing on science content for teachers. More importantly, our review reveals that no reported study has connected participation in inquiry-based PD with all the desired outcomes of teacher PD: enhanced teacher knowledge, change in beliefs and practice, and enhanced student achievement. Implications for future research on inquiry-based PD programs are discussed.

Published

2012

14. A post-Calumet shoreline along southern Lake Michigan

Author

Capps, Daniel K., Thompson, Todd A., and Booth, Robert K.

Published

2007

15. Preservice Science Teachers' Perspectives on and Practices Related to Self-Regulated Learning after a Brief Learning Opportunity.

Author

Tran, Hong H., Capps, Daniel K., and Hodges, Georgia W.

Abstract

Teacher education programs are a critical site for preparing teachers' self-regulated learning (SRL) knowledge and capacity to foster students' SRL skills. The present study describes preservice science teachers' (PSTs) perspectives and practices regarding SRL after a brief learning opportunity. The participants were 12 PSTs in a certification program for teaching secondary science. The data came from course assignments, lesson plans, and semi-structured interviews. The findings showed the PSTs appreciated the role of SRL and tried to integrate SRL processes into their science lessons. However, they needed further support to systematically implement SRL processes in classrooms. Findings from this study are relevant for science teacher educators who are interested in improving science teaching because the link between SRL and science teaching is discussed. They may also support teacher educators in making more informed decisions about course design and instruction regarding SRL. Finally, since suggestions for future studies are discussed, this research is relevant for science education researchers who study teachers' perspectives on and practices related to SRL. [ABSTRACT FROM AUTHOR]

Published

2022

16. Six minutes to promote change: People, not facts, alter students' perceptions on climate change.

Author

Sauer, Kodiak A., Capps, Daniel K., Jackson, David F., and Capps, Krista A.

Subjects

*STUDENT attitudes, *CLIMATE change, *EFFECT of human beings on climate change, *CLIMATOLOGY, *ELITE (Social sciences)

Abstract

Anthropogenic climate change threatens the structure and function of ecosystems throughout the globe, but many people are still skeptical of its existence. Traditional "knowledge deficit model" thinking has suggested that providing the public with more facts about climate change will assuage skepticism. However, presenting evidence contrary to prior beliefs can have the opposite effect and result in a strengthening of previously held beliefs, a phenomenon known as biased assimilation or a backfire effect. Given this, strategies for effectively communicating about socioscientific issues that are politically controversial need to be thoroughly investigated. We randomly assigned 184 undergraduates from an environmental science class to one of three experimental conditions in which we exposed them to short videos that employed different messaging strategies: (a) an engaging science lecture, (b) consensus messaging, and (c) elite cues. We measured changes in student perceptions of climate change across five constructs (content knowledge, acceptance of scientific consensus, perceived risk, support for action, and climate identity) before and after viewing videos. Consensus messaging outperformed the other two conditions in increasing student acceptance of the scientific consensus, perceived risk of climate change, and climate identity, suggesting this may be an effective strategy for communicating the gravity of anthropogenic climate change. Elite cues outperformed the engaging science lecture condition in increasing student support for action on climate, with politically conservative students driving this relationship, suggesting that the messenger is more important than the message if changing opinions about the necessity of action on climate change is the desired outcome. Relative to the other conditions, the engaging science lecture did not support change in students' perceptions on climate, but appealing to student respect for authority produced positive results. Notably, we observed no decline in students' acceptance of climate science, indicating that none of the conditions induced a backfire effect. [ABSTRACT FROM AUTHOR]

Published

2021

17. Inquiry-Based Professional Development: What does it take to support teachers in learning about inquiry and nature of science?

Author

Capps, Daniel K. and Crawford, Barbara A.

Subjects

*CAREER development, *GEOLOGY, *SCIENCE teachers, *SCIENTIFIC literacy, *ACADEMIC achievement, *RESEARCH

Abstract

This study examined the geologic and evolutionary subject matter and views of inquiry and nature of science (NOS) of a group of 5th–9th grade teachers, and a comparison group, before and after participating in an inquiry-based professional development (PD) experience. Project teachers participated in an intensive, week-long, resident institute where they learned about geology, evolutionary concepts, NOS, and inquiry while engaging in an authentic scientific investigation. They were also given support in how to teach these topics using an inquiry-based approach. Analyses of data indicate that project teachers showed greater gains in subject matter than comparison teachers and the relative change was significantly different statistically. Furthermore, most project teachers demonstrated a shift from less informed to more informed views of inquiry and NOS and the relative change between participant and comparison teachers was significantly different statistically. These gains are promising because they suggest that short-term and intensive PD can support teachers in enhancing their knowledge and views. Moreover, analysis of post-programme questionnaires and interviews indicated that supporting teachers in reflecting on the relationship between their former classroom teaching practice, and new knowledge acquired during PD, may be an important link in enhancing teacher knowledge and supporting change in practice. This suggests that enhanced knowledge and views may not be the only factor contributing to changing one's practice. The study points to the importance of reflection in promoting teacher change. Results from this study add insights to supporting teachers in enacting inquiry-based instruction and teaching about NOS in their classrooms. [ABSTRACT FROM PUBLISHER]

Published

2013