Literature Index

Displaying 1301 - 1310 of 3326
  • Author(s):
    Laura Martignon
    Year:
    2008
    Abstract:
    I report on special features of a course on statistics and probabilities at my university, where future teachers of mathematics in primary school are instructed on en-active representations of statistical situations and on their analogue modelling. I also report on empirical work with future mathematics teachers of primary school in Baden Württemberg who have been instructed to introduce simple, en-active representations of statistical concepts in the classroom.
  • Author(s):
    Bessant, K. C.
    Year:
    1992
    Abstract:
    Explores the need to teach undergraduate sociology majors about statistical methods. Identifies student based obstacles to the learning of statistics. Offers an instructional model that includes (1) warm up sessions; (2) organizational models; (3) application exercises; (4) pattern recognition; and (5) sociological meaning. Recommends the model as a basic design for the introductory statistics course.
  • Author(s):
    McGatha, M. B.
    Year:
    2000
    Abstract:
    This study documented the learning of a research team as it engaged in the process of instructional design. An 11-week classroom teaching experiment conducted in a seventh-grade classroom and the planning year prior to the teaching experiment were the sites for the research team's instructional design investigation. The goal of the teaching experiment was to support students' development of statistical understandings related to data analysis through the design of an instructional sequence. Two computer-based data analysis tools were integral aspects of the instructional sequence and served as primary means of supporting the students' learning. This dissertation clarified the instructional design decisions made by the research team and described how those decisions created learning opportunities. These decisions emerged as the research team continually tested and revised its conjectures about how to support students' mathematical development as it designed the instructional sequence. To this end, this dissertation focused on critical issues that guided the research team in its initial attempts at instructional design. These critical issues were tracked from the planning year throughout the classroom teaching experiment in order to understand what the research team learned about (a) the mathematics involved in teaching and learning statistics and (b) how to support students' development of ways to reason statistically while engaging in data analysis.
  • Author(s):
    Hong, E., & O'Neil, H. F., Jr.
    Year:
    1992
    Abstract:
    This study attempts to identify the relevant mental model for hypothesis testing. Analysis of textbooks provided the identification of the declarative and procedural knowledge that constitute the relevant mental models in hypothesis testing. A cognitive task analysis of intermediates' and experts' mental models was conducted in order to identify the relevant mental models for teaching novices. Of interest were the steps taken to arrive at the solution and the representations that were used in the problem solving process. Results indicate that experts and intermediates differ in their conceptual understanding. In addition, diagrammatic problem representation was useful in for all particularly for the intermediates. On this basis, the intermediate models were deemed relevant for instructing novices. Two instructional strategies were investigated: presentation sequence (concepts and procedures taught separately or together) and presentation mode (diagrammatic vs. descriptive). Based on their findings, the researchers conclude that meaningful learning occurs when conceptual instruction is provided prior to the procedures, that is, when they are taught separately rather than concurrently, and when a diagrammatic strategy was utilized rather than a descriptive method. This facilitates development of representational ability for understanding hypothesis testing. In short, using separate and diagrammatic representation strategies are effective for teaching novices in the area of hypothesis testing. The researchers conclude that by developing relevant mental models through this type of instruction, the learner's knowledge can be more accessible (awareness of knowledge), functional (predict or explain), and improvable.
  • Author(s):
    Watson, J. M.
    Editors:
    The National Organizing Committee of the ICOTS 4
    Year:
    1994
    Abstract:
    This paper will document four instruments devised to assess student understanding of statistical concepts. Two are intended for large scale administration and two are for individual differences.
  • Author(s):
    Watson, J. M.
    Editors:
    The National Organizing Committee of the ICOTS 4
    Year:
    1994
    Abstract:
    This paper will document four instruments devised to assess student understanding of statistical concepts. Two are intended for large scale administration and two are for individual interviews.
  • Author(s):
    Rogerson, A.
    Editors:
    Vere-Jones, D., Carlyle, S., & Dawkins, B. P.
    Year:
    1991
    Abstract:
    This paper re-evaluates the basic notions of probability and statistics and discusses their introduction through integrated real-life themes, a method already successfully tested in schools for students aged 11-16. In effect, this approach provides a viable alternative to the great majority of school/university courses which teach probability and representational/parametric statistics virtually as an extension of pure mathematics.
  • Author(s):
    Dayton, C. M.
    Year:
    1988
    Abstract:
    Students in graduate-level applied statistical courses should be trained to manipulate realistic data bases which are sufficiently large and complex that they provide verisimilitude with respect to thesis studies and other real-world applications. At the University of Maryland, we have been integrating data base manipulation into our intermediate-level statistics instruction for several years. This presentation concentrates on several issues related to the use of data bases in statistical instruction: appropriate course level; desirable characteristics of data bases; the role of mainframe and microcomputer statistical software; integration of data base manipulation skills into instruction on statistical topics; and grading practices.
  • Author(s):
    Zipora Libman
    Year:
    2010
    Abstract:
    This article looks at a process of integrating real-life data investigation in a course on descriptive<br><br>statistics. Referring to constructivist perspectives, this article suggests a look at the potential of<br><br>inculcating alternative teaching methods that encourage students to take a more active role in<br><br>their own learning and participate in the process of assessing what they have learned. The article<br><br>illustrates how this teaching method enabled students to realize that imparting meaning to sets of<br><br>data is a complex activity which involves conceptual flexibility, integration of all the procedures<br><br>that one has learned, and creative reasoning
  • Author(s):
    Shonda Kuiper
    Year:
    2008
    Abstract:
    Many instructors use projects to ensure that students experience the challenge of synthesizing key elements learned throughout a course. However, students can often have difficulty adjusting from traditional homework to a true research project that requires searching the literature, transitioning from a research question to a statistical model, preparing a proposal for analysis, collecting data, determine an appropriate technique for analysis, and presenting the results. This webinar presents multi-day lab modules that bridge the gap between smaller, focused textbook problems to large projects that help students experience the role of a research scientist. These labs can be combined to form a second statistics course, individually incorporated into an introductory statistics course, used to form the basis of an individual research project, or used to help students and researchers in other disciplines better understand how statisticians approach data analysis.

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

register