Literature Index

Displaying 1701 - 1710 of 3326
  • Author(s):
    Kern II, J. C.
    Editors:
    Stephenson, W. R.
    Year:
    2006
    Abstract:
    Bayesian inference on multinomial probabilities is conducted based on data collected from the game Pass the Pigs®. Prior information on these probabilities is readily available from the instruction manual, and is easily incorporated in a Dirichlet prior. Posterior analysis of the scoring probabilities quantifies the discrepancy between empirical and prior estimates, and yields posterior predictive simulations used to compare competing extreme strategies.
  • Author(s):
    Thornton, F.
    Year:
    1986
    Abstract:
    This paper is a pilot study for a major investigation into children's understanding of statistical graphics, using a written test paper incorporating a hierarchy of assumed question difficulty. Four provisional levels of understanding of statistical graphics are established from the test paper results. This might permit formulation of recommendations for development of approaches encouraging better understanding of statistical graphics in pupils. The four provisional levels would then be used as a basis for a main investigation with wider scope subject to the adjustments to the sample, test paper, and administration recommended in the conclusions to this pilot study paper. It seems particularly important to put an unambiguous carefully structured test paper to a more stringently selected and representative sample, with more computer support for data analysis.
  • Author(s):
    Jacqueline Wroughton and Joseph Nolan
    Year:
    2012
    Abstract:
    Understanding counting rules is challenging for students; in particular, they struggle with determining when and how to implement combinations, permutations, and the multiplication rule as tools for counting large sets and computing probability. We present an activity – using ideas from the games of poker and pinochle – designed to help students solidify and expand upon counting techniques while also promoting critical thinking in the classroom. While this activity has been used in college level courses, we believe it would also be applicable in a high school discrete mathematics class or in any probability course having substantial emphasis on these topics. We present and discuss the activity including desired learning outcomes, rationale, opportunities for teachable moments, and potential follow-up assignments.
  • Author(s):
    Roger Woodard & Ginger Rowell
    Year:
    2006
    Abstract:
    Many people would like to use online resources in their classrooms. However, the typical online applet does not have supporting materials that allow the teacher to introduce them into the classroom. Instructors that simply point students to a website without specific instructions and planning may find that the students do not achieve the desired learning outcomes from using the applet. In this webinar we will present a basic framework that instructors can use to plan and implement the use of online materials in the classroom. We will illustrate these with examples that we have used in our courses.
  • Author(s):
    Matthew J. Sigal & R. Philip Chalmers
    Year:
    2016
    Abstract:
    Monte Carlo simulations (MCSs) provide important information about statistical phenomena that would be impossible to assess otherwise. This article introduces MCS methods and their applications to research and statistical pedagogy using a novel software package for the R Project for Statistical Computing constructed to lessen the often steep learning curve when organizing simulation code. A primary goal of this article is to demonstrate how well-suited MCS designs are to classroom demonstrations, and how they provide a hands-on method for students to become acquainted with complex statistical concepts. In this article, essential programming aspects for writing MCS code in R are overviewed, multiple applied examples with relevant code are provided, and the benefits of using a generate–analyze–summarize coding structure over the typical “for-loop” strategy are discussed.
  • Author(s):
    David L. Farnsworth
    Year:
    2009
    Abstract:
    A simple way is given to create residual plots that are words or pictures. Three illustrative examples are presented.
  • Author(s):
    Marcin Kozak, Ewa Bakinowska & Jakub Paderewski
    Year:
    2009
    Abstract:
    The questionnaire survey was conducted among post-graduate and under-graduate students of two agricultural universities in Poland to study their basic knowledge of graphing. A smaller group of primary school pupils was also administered in the survey for comparison purposes. The survey consisted of only two questions concerning the choice of the best and the worst chart among three options: a piechart, a vertical barchart with three-dimensional columns, and a horizontal barchart. The charts were constructed in such a way that only one type - the horizontal barchart - could be considered a good chart. The results are worrying: among university students, both under- and postgraduate, quite often the three-dimensional barchart was chosen as the best one. Among the primary school pupils the piechart was most often chosen as the best one.
  • Author(s):
    Nisbett, R. E., Borgida, E., Crandall, R., & Reed, H.
    Editors:
    Kahneman, D., Slovic, P., & Tversky, A.
    Year:
    1982
    Abstract:
    In the pages that follow we review the evidence showing that there is little support for the view that people utilize consensus information in making attributions. This evidence concerns both instances where the actor is another person and instances, drawn primarily from our own research, where the actor is the self. We then show the similarity between the failure of consensus information to affect attributions and the demonstration by Kahneman and Tversky that base-rate information fails to affect predictions. We propose explanations for both failures in terms of the relative impact of abstract information versus concrete information. Finally, we apply the distinction between abstract and concrete information to questions of communication and persuasion.
  • Author(s):
    Keeler, C. M.
    Editors:
    Gal, I., & Garfield, J. B.
    Year:
    1997
    Abstract:
    In this chapter, the process of developing a form of alternative assessment, the portfolio, will be described. The portfolio is a purposeful collection of student work that exhibits the student's efforts, progress and achievements over time. Portfolio develpment supports the assessment of long-term projects, encourages student-initiated revision and provides a context for presentation, guidance, and critique. The purpose of portfolio development is the same no matter the course or age of the students, to display the products of instruction in a way which challenges teachers and students to focus on meaningful outcomes. The context in which the use of portfolios is described here is a graduate level statistics course where an additional purpose is to provide students with an organized reference on statistical programming, analylsis, and interpretation. However, the process used in developing portfolios and the important issues surrounding portfolio assessment can easily be generalized to different educational levels and subject areas. Some of the questions addressed in this chapter are 1) What is the underlying belief concerning knowledge construction which guides portfolio assessment?, 2) How do you develop and use portfolios?, 3) What does a portfolio look like?, and 4) What are the major considerations in deciding to use portfolio assessment?
  • Author(s):
    Casanova del Angel, F.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    A postgraduate teaching performance evaluation methodology is presented starting with the design of a questionnaire applied to enrolled in the Master's in Sciences program. The evaluation instrument was divided into four sections and programmed in informatics language. Regular students answered 543 questionnaires, one per course taken during 2003 and 2004. The information was studied statistically course-by-course from a point of view both educational and psychological. The results were analyzed course-by-course taught and on an overall basis.

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