Literature Index

Displaying 821 - 830 of 3326
  • Author(s):
    Stohl, H. & Tarr, J. E.
    Year:
    2002
    Abstract:
    This paper focuses on how notions of inference can be fostered in middle school through the use of carefully designed tasks, open-ended software simulation tools, and social activity that focuses on making data-based arguments. We analyzed interactions between two sixth-grade students who used software tools to formulate and evaluate inferences during a 12-day instructional program that utilized Probability Explorer software as a primary investigation tool. A variety of the software tools enabled students to understand the interplay between empirical and theoretical probability, recognize the importance of using larger samples to make inferences, and justify their claims with data-based evidence.
  • Author(s):
    Hertzberg, V. S., Clark, W. S., & Brogan, D. J.
    Year:
    2000
    Abstract:
    Unlike primary and secondary educators, professors in post-secondary education are not required to meet certification requirements in education. Expressly, they are not required to have demonstrated competencies in the areas of education that contribute to the process of educating undergraduate and graduate students, such as pedagogy or evaluation in a subject matter area. To address its responsibility for training graduate students as teachers as well as scholars and investigators, the Emory University Graduate School of Arts and Sciences implemented the Teaching Assistant and Teacher Training Opportunity (TATTO) for all graduate students in 1992. Each graduate department has instituted its own TATTO program with a consistent and Graduate School-approved format. In this paper we describe our experience over the last six years with the evolving teacher-training program in the Department of Biostatistics. In our program, we focus on developing communication skills for all graduates, even those who may not pursue an academic career involving teaching. We also discuss the merits and challenges of our course in pedagogy in biostatistics, as well as other training components, including instruction in statistical consultation. We have found that the interactive dynamic nature of this program is well-received by the students. We have also found that the students benefit from observing good teachers, with attention to the craft of teaching, and from the feedback given by these teachers on student teaching style.
  • Author(s):
    Zeleke, A., Lee, C., & Daniels, J.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    Over the last decade, the use of real world projects in introductory statistics courses has increased in popularity. Real world projects provide students with an opportunity to learn the entire process of a statistical investigation. Such projects fit the principles of active learning well. However, due to the time and effort required by both the instructor and students, it is difficult to sustain the project activity for a long time period. Hence, the final project reports are often disappointing. Through an NSF funded project, we have constructed a real-time online database. Students collect their own data and enter it into the database. Various activities are now available at http://stat.cst.cmich.edu/statact/. We assign group projects using the data collected by the students themselves. This paper shares how the process of statistical investigation is implemented into the project by using the students' own data.
  • Author(s):
    Watson, J. M.
    Editors:
    Ben-Zvi, D. & Garfield, J.
    Year:
    2004
    Abstract:
    Although reasoning about samples and sampling is fundamental to the legitimate practice of statistics, it often receives little attention in the school curriculum. This may be related to the lack of numerical calculations-predominant in the mathematics curriculum-and the descriptive nature of the material associated with the topic. This chapter will extend previous research on students' reasoning about samples by considering longitudinal interviews with 38 students 3 or 4 years after they first discussed their understanding of what a sample was, how samples should be collected, and the representing power of a sample based on its size. Of the six categories of response observed at the time of the initial interviews, all were confirmed after 3 or 4 years, and one additional preliminary level was observed.
  • Author(s):
    Confrey, J. & Makar, K.
    Year:
    2002
    Abstract:
    To support the development of statistical inquiry, teachers must know more than statistical procedures; they must learn to investigate, reason, and argue with statistical concepts and techniques. For mathematics teachers, this is often unfamiliar territory. This study investigates the process of teachers' statistical inquiry and documents its development during a 6-month professional development sequence that immerses teachers in learning statistics while analyzing their students' high-stakes state assessment results. We will report, based on empirical research, how an immersion model in statistics can influence that development.
  • Author(s):
    Makar, K. M.
    Editors:
    Confrey, J. & Marshall, J.
    Year:
    2004
    Abstract:
    Concerns about equity in the ways that schools are using the data from the results of their students' state-mandated exams (Confrey & Makar, in press) prompted this mixed-method study, based on the model of Design Research (Cobb et al., 2003). The study was conducted to provide insight into the ways that understanding of the statistical concepts of variation and distribution, developed in the context of learning about equity and assessment, can allow prospective teachers to broaden their understanding of equity and gain experience with conducting an inquiry of an ill-structured problem through the use of data generated by high-stakes tests to investigate equity and fairness in the accountability system. The study took place in an innovative one-semester course for preservice teachers designed to support and develop understanding of equity and fairness in accountability through data-based statistical inquiry (Confrey, Makar, and Kazak, 2004). The prospective teachers' investigations were conducted using Fathom Dynamic Statistics (Finzer, 2001), a learning software built for novice data analysts which emphasizes visualization and building inferential thinking through highlighting relationships between multiple variable displays. Semi-structured investigations during the course led up to a three-week self-designed inquiry project in which the prospective teachers used data to investigate an area of interest to them about equity in accountability, communicating their findings both orally and as a written paper. Results from the study provide insight into prospective teachers' experiences of conducting inquiry of ill-structured problems and their struggle with articulating beliefs of equity. The study also reports how statistical concepts documented in structured settings showed that the subjects developed rich conceptions of variation and distribution, but that the application of these concepts as evidence in their inquiry of an ill-structured problem was more challenging for them. No correlation was found between the level of statistical evidence in the structured and open-ended inquiry settings, however there was a significant correlation between prospective teachers degree of engagement with their topic of inquiry and the depth of statistical evidence they used, particularly for minority students. Implications and suggestions for improving the preparation of teachers in the areas of statistical reasoning, inquiry, equity, and interpreting assessment data are provided.
  • Author(s):
    Meyer, O., & Thille, C.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    Carnegie Mellon University was funded to develop a "stand-alone" web-based introductory statistics course, openly and freely available to individual learners online. The goal of this project is to develop statistical literacy among people who do not have access to academic institutions because of remote locations, financial difficulties or social barriers. In order to achieve this goal, the design of the course has been a collaboration among statistics faculty, cognitive scientists and experts in human computer interaction. This paper discusses the challenges in developing such a learning environment and ways in which the course tries to address them. We also describe the design and results of a pilot study where the degree to which the course is successful in developing statistical literacy has been examined.
  • Author(s):
    Manor, H., Ben-Zvi, D. & Sagy, O.
    Year:
    2017
  • Author(s):
    Stern, David
    Year:
    2013
    Abstract:
    It is well recognised that statistics teaching in Kenya needs to change, in both the course content and in the approaches to teaching. Also clear is the important role that can be played through the recent wide availability of modern technology to students at all levels. A wide range of resources are available and various initiatives have also recently been undertaken. However, the system has remained resistant to change. The case is made that teaching and learning of statistics could benefit from initiatives that cut across all educational levels from school through undergraduate to MSc and PhD.
  • Author(s):
    Lee, C.
    Year:
    2000
    Abstract:
    This paper discusses student-centered learning within the context of an introductory statistics course.

Pages

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