Literature Index

Displaying 571 - 580 of 3326
  • Author(s):
    Lehrer, R., Giles, N. D., Schauble, L.
    Year:
    2002
    Abstract:
    This book looks at how teachers implement national math and science standards in their classrooms. Teacher-authored chapters provide insights into how children think and reason as they pose questions, collect data, and build data models to answer their questions. While the spotlight is primarily on student understanding and its development over time, the text also highlights teachers' professional development of a specific form of knowledge. Chapters include: (1) "Children's Work with Data" (Richard Lehrer, Nancy D. Giles, and Leona Schauble); (2) "How Children Organize and Understand Data" (Angie Putz); (3) "How Much Traffic? Beep! Beep! Get That Car Off the Number Line!" (Jean Gavin); (4) "What's Typical? A Study of the Distributions of Items in Recycling Bins" (Carmen Curtis); (5) "Shadows" (Susan Wainwright); (6) "Graphing" (Jennie Clement); (7) "Graphing Artistry: Data Displays as Tools for Understanding Literary Devices" (Deborah Lucas); (8) "Data Models of Ourselves: Body Self-Portrait Project" (Erin Diperna); and (9) "Classification Models Across the Grades" (Sally Hanner, Eric James, and Mark Rohlfing)
  • Author(s):
    Ben-Zvi, D.
    Year:
    2013
  • Author(s):
    Ben-Zvi, D., Makar, K., Bakker, A., & Aridor, K.
    Editors:
    M. Pytlak, T. Rowland, & E. Swoboda
    Year:
    2011
  • Author(s):
    Ainley, J., Aridor, K., Ben-Zvi, D., Manor, H., & Pratt, D.
    Editors:
    J. Garfield
    Year:
    2013
    Abstract:
    We present initial data from a collaboration between researchers in the UK and in Israel. We aimed to explore how young students (11-14 years of age) expressed uncertainty in partiallydetermined situations, where a signal might account for some, or even a substantial amount of, variation but additionally there is a need to account for noise in the system. The two teams collaborated to develop a task that drew on previous experience with Active Graphing and EDA. As well as collecting data through an experiment, the young students used the modelling functionality in TinkerPlots2 to create models (or ‘machines’) that generated similar data to that in the experiment. In the presentation, we describe the various ways in which the young students accounted for and expressed uncertainty verbally and through actions in TinkerPlots2. 
  • Author(s):
    Ben-Zvi, D., & Aridor, K.
    Editors:
    D. Ben-Zvi and K. Makar
    Year:
    2016
    Abstract:
    The knowledge and application of the problem context and its relation to data analysis is a key component in the development of students' informal inferential reasoning. This case study analyzes children's emergent understanding of the relationship between the context world and the data world while making informal statistical inferences in an inquiry-based learning environment using TinkerPlots. We focus on two fifth grade students (aged 11) who participated in the 2010 Connections design experiment in Israel. We observe and analyze their first steps in the two worlds – data and context – in growing samples investigations. They developed gradually and inconsistently an understanding of making informal inferences considering both context and data. They moved from an initial conception of context and data as separate entities to two interconnected and relevant dimensions. We finally discuss this development and what might have supported it. 
  • Author(s):
    Jun, L.
    Editors:
    Pereira-Mendoza, L.
    Year:
    2000
    Abstract:
    This study investigated the following three questions: What are the Chinese students main misconceptions of probability? What is the developmental structure of students' understanding of probability? Can an activity-based short-term teaching programme improve ordinary grade 8 students' understanding of probability? The first two questions were answered in the main study. The sample was 567 Chinese students from three grades (6, 8 and 12) and two school streams (ordinary and advanced). After one year, six activity-based lessons which focused on empirical probability were given to two grade 8 classes in an ordinary school. The approaches were parallel except that one class had the opportunity to see computer simulations of a long series of experiments, while the other class was given the data in written form. All the students were tested and interviewed both prior to and after the teaching intervention. Fourteen groups of misconceptions were observed in this study. The outcome approach, chance cannot be measured mathematically, compound approach and equiprobability were the main misconceptions for each grade and each stream of students. The context and data used in an item were found to play a role in eliciting some misconceptions. Using the SOLO taxonomy, it was found that, generally, there was no improvement in developmental level at grades 6 and 8, the two grades without any formal probability training. Grade 12 students have a better understanding than the younger students. The results of the teaching show that a short intervention can help students overcome some of their misconceptions. Students in the two classes improved substantially in their answers and reasoning but no statistically significant difference was found between the classes.
  • Author(s):
    Francis, G.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    With ever increasing demands on limited resources, universities are looking for ways to utilise their resources more efficiently. At Swinburne University of Technology, in the statistics component of the psychology course, we have developed a set of materials which allow students to work independently, rather than attending lectures and tutorials. This means fewer students attend tutorials and we can give those that need it more individual assistance. A major concern with this strategy is that students might choose to work independently for inappropriate reasons. This study explores the differences in performance between students who choose to attend lectures and those who opt for independent study, and seeks to identify factors which explain these differences. The research is based on a number of questionnaires collected throughout the semester and analysed in conjunction with the students' results.
  • Author(s):
    Makar, K. & Confrey, J.
    Editors:
    Lee, C. & Satterlee, A.
    Year:
    2003
    Abstract:
    Current reforms in mathematics education place increasing emphasis on statistics and data analysis in the school curriculum. The statistics education community has pushed for school instruction in statistics to go beyond measures of center, and to emphasize variation in data. Little is known about the way that teachers "see variation". The study reported here was conducted with 22 prospective secondary math and science teachers enrolled in a preservice teacher education course at a large university in the U.S. which emphasized assessment, equity, inquiry, and analysis of testing data. Interviews conducted at the beginning and end of the course asked the teachers to make comparisons of data distributions in a context that many U.S. teachers are increasingly faced with: results from their students' performance on high-stakes state exams. The results of these interviews revealed that although the prospective teachers in the study did not rely on traditional statistical terminology and measures as much as anticipated, the words they did use illustrate that through more informal descriptions of distributions, they were able to express rich views of variation and distribution. This paper details these descriptions, categorizing them into three major areas: traditional notions, clumps & chunks (distribution subsets), and notions of spread. The benefits of informal language in statistics is outlined.
  • Author(s):
    Jacob, E.
    Year:
    1988
    Abstract:
    There is a considerable confusion in the educational literature about the nature of qualitative research. In this article I argue that a major source of the confusion arises from discussing qualitative research as if it is one approach. The discussion in the educational literature concerning qualitative research can be clarified by recognizing that qualitative research comes in many differenct varieties, which can be more clearly identified and understood by using the notion of research traditions. To apply this concept to the discussion of qualitative research, I describe briefly and compare six traditions from the disciplines of psychology, holistic ethnography, cognitive anthropology, ethnography of communication, and symbolic interactionism. I conclude that we may increase our understanding of qualitative research by focusing our dicussions at the level of traditions.
    Location:
  • Author(s):
    MacGillivray, H.
    Year:
    2007
    Abstract:
    This is the first of a series on data investigations in which the cycle of issues, planning, collecting, exploring, interpreting and discussing is reported for selected data investigations, with the data sets available on the Blackwell repository. The motivating issues for the investigation of this report were the manner in which people clasp their hands and fold their arms. The data set yields some interesting aspects for students, for teaching and for future or further investigations, and illustrates the needs for systematic and thoughtful exploration of data.

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The CAUSE Research Group is supported in part by a member initiative grant from the American Statistical Association’s Section on Statistics and Data Science Education

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