Literature Index

Displaying 1481 - 1490 of 3326
  • Author(s):
    Falk, R., & Bar-Hillel, M.
    Year:
    1980
    Abstract:
    This article discusses the affect of weighted average.
  • Author(s):
    Jackie Miller & David Spohn
    Year:
    2006
    Abstract:
    This 30-minute webinar focuses on the AP Statistics experience. David Spohn, an experienced AP Statistics teacher will discuss the curriculum of AP, insights on his own teaching, and resources that are available to AP Statistics teachers. Dr. Jackie Miller, a table leader for the AP reading, will talk about the AP Statistics reading experience from the point of view of a college faculty member, while David Spohn adds in his experiences as a high school reader. (We'll also provide information on how to get involved in the AP Statistics reading.) The webinar will close with suggestions from participants on what they believe should await AP Statistics students once they reach college.
  • Author(s):
    David Spohn
    Year:
    2006
    Abstract:
    This 30-minute webinar is the second in a two-part series on the AP Statistics experience. The first part focused on the AP exam and its grading. This second part will focus on the teaching of the AP course. David Spohn, an experienced AP Statistics teacher, will discuss the curriculum of AP, insights on his own teaching, and resources that are available to AP Statistics teachers.
  • Author(s):
    Hooper, L.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    The New Zealand national curriculum framework provides a context within which Statistics New Zealand can deliver relevant statistical teaching resources to the school sector. The presentation will discuss the 2001 Census Education Resource and its benefits to both students in the classroom and Statistics New Zealand. It will look at the consultation process undertaken with the educational sector to ensure the delivery of an appropriate resource in the two official languages of New Zealand (English and Mäori) and give examples of how the resource was used by teachers to provide interesting, real life learning experiences for their students. The resource was supported by additional teaching material in the education media and on Statistics New Zealand's website as well as key educational websites. Examples of the range of activities will be included.
  • Author(s):
    Hollylynne Stohl Lee, Robin L. Angotti & James E. Tarr
    Year:
    2010
    Abstract:
    We examined how middle school students reason about results from a computer-simulated die-tossing experiment, including various representations of data, to support or refute an assumption that the outcomes on a die are equiprobable. We used students' actions with the software and their social interactions to infer their expectations and whether or not they believed their empirical data could be used to refute an assumption of equiprobable outcomes. Comparisons across students illuminate intricacies in their reasoning as they collect and analyze data from the die tosses. Overall, our research contributes to understanding how students can engage in informal hypothesis testing and use data from simulations to make inferences about a probability distribution.
  • Author(s):
    Weinberg, S. L., & Abramowitz, S. K.
    Year:
    2000
    Abstract:
    Five case studies based on real situations and real data are presented for use in courses on research methodology and data analysis. Departing from the typical case study approach, students are asked to act as consultants to resolve the issues placed before them, prior to being given a solution. In generic terms, students are given a description of a real problem and a real dataset relevant to solving that problem and are asked for their advice on how the problem may be solved. This approach motivates students to take ownership of the problem at hand and provides them with the opportunities and experiences to use the tools of their education actively, rather than to merely acquire them.
  • Author(s):
    Lovett, M. C., & Anderson, J. R.
    Year:
    1995
    Abstract:
    When solvers have more than one strategy available for a given problem, they must make a selection. As they select and use different strategies, solvers can learn the strengths and weaknesses of each. We study how solvers learn about the relative success rates of two strategies in the Building Sticks Task and what influence this learning has on later strategy selections. A theory of how people learn from and make such selections in an adaptive way is part of the ACT-R architecture (Anderson, 1993). We develop a computational model within ACT-R that predicts individual subjects' selections based on their histories of success and failure. The model fits the selection behavior of two subgroups of subjects: those who select each strategy according to its probability of success and those who select the more successful strategy exclusively. We relate these results to probability matching, a robust finding in the probability-learning literature that occurs when people select a response (e.g., guess heads vs. tails) a proportion of the time equal to the probability that the corresponding event occurs (e.g., the coin comes up heads vs. tails).
  • Author(s):
    Mooney, E. S., Jones, G. A., Langrall, C. W.
    Editors:
    Ferrucci, B. J., Shaughnessy, M.
    Year:
    2002
    Abstract:
    Presents and discusses examples that illustrate the nature and scope of elementary and middle school students' reasoning when they are faced with tasks that involve making inferences and predictions from data. Shows that the range in thinking is not so much dependent on age as on the experiences students have in data exploration.
  • Author(s):
    Lindquist, M. M.
    Editors:
    Leiva, M. A.
    Year:
    1992
    Abstract:
    This booklet is part of the Curriculum and Evaluation for School Mathematics Addenda Series, Grades K-6. This series was designed to illustrate the standards and to help you translate them into classroom practice. In Making Sense of Data you will find that familiar activities have been redesigned and infused with an investigative flavor. You will discover new ideas that can be easily incorporated into your mathematics program. You will also encounter a variety of problems and questions to explore with your class. Margin notes give you an additional information on the activities and on such topics as student self-confidence, evaluation, and grouping. Connections to science, language arts, social studies, and other areas in the curriculum are made throughout. Supporting statements from the Curriculum and Evaluation Standards appear as margin notes.
  • Author(s):
    Friel, S. N., Curcio, F. R., & Bright, G. W.
    Year:
    2001
    Abstract:
    Our purpose is to bring together perspectives concerning the processing and use of statistical graphs to identify critical factors that appear to influence graph comprehension and to suggest instructional implications. After providing a synthesis of information about the nature and structure of graphs, we define graph comprehension. We consider 4 critical factors that appear to affect graph comprehension: the purposes for using graphs, task characteristics, discipline characteristics, and reader characteristics. A construct called graph sense is defined. A sequence for ordering the introduction of graphs is proposed. We conclude with a discussion of issues involved in making sense of quantitative information using graphs and ways instruction may be modified to promote such sense making.

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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