Literature Index

Displaying 1911 - 1920 of 3326
  • Author(s):
    Jane M. Watson & Lyn D. English
    Year:
    2016
    Abstract:
    As an extension to an activity introducing Year 5 students to the practice of statistics, the software TinkerPlots made it possible to collect repeated random samples from a finite population to informally explore students’ capacity to begin reasoning with a distribution of sample statistics. This article provides background for the sampling process and reports on the success of students in making predictions for the population from the collection of simulated samples and in explaining their strategies. The activity provided an application of the numeracy skill of using percentages, the numerical summary of the data, rather than graphing data in the analysis of samples to make decisions on a statistical question. About 70% of students made what were considered at least moderately good predictions of the population percentages for five yes–no questions, and the correlation between predictions and explanations was 0.78.
  • Author(s):
    Hardy, M. E.
    Year:
    2002
    Abstract:
    With the growth in the availability of inexpensive computing the emphasis in teaching introductory statistics must shift from the mechanics of performing statistical procedure n a calculator or by hand to the interpretation of results easily obtained by computer. Textbooks in statistics provide ample instruction on using technology to perform statistical analysis but provide little in the way of hands on activity or simulation to teach abstract concepts. Many sites on the World Wide Web have Java applets that allow users to simulate sampling but these are subject to change both in how they work and where they are located which makes planning instruction with these programs difficult. Several software programs have been specially developed to allow for simulation of sampling distribution but some colleges may be unwilling or unable to purchase or support such specialized packages. In spite of lacking the graphics of commercial packages and web-based simulations, simulation exercises in Excel have the advantage of utilizing a program that is available and supported on most campuses.<br>In this paper I describe two exercises which use repeated simulated sampling in Microsoft Excel to teach about sampling distributions, particularly the Central Limit Theorem and the interpretation of confidence intervals. First, I will give a brief overview of the key concepts in the Central Limit Theorem and confidence interval estimation, describe the difficulties students have in learning these concepts and describe the potential of simulation to add clarity to these concepts. Next, I will describe how Excel is used to simulate sampling in my courses. Next I will describe the assignments I use in my classes to teach Central Limit Theorem and confidence interval estimation. Finally I will discuss possible exercises in repeated simulated sampling to teach other concepts in statistical inference as well as ways in which the effectiveness of these simulations in promotion g student learning can be formally evaluated.
  • Author(s):
    Braun, W. J.
    Year:
    2000
    Abstract:
    A simple procedure is presented for obtaining the sample size and acceptance number for a single sample acceptance sampling plan, given the probability of lot acceptance for lots having proportion defective equal to p1, and the probability of lot rejection for lots having proportion defective equal to p2. The procedure gives a practical illustration of the use of the normal approximation to the binomial distribution that is appropriate for courses on statistical quality control as well as on introductory statistics.
  • Author(s):
    Simon, J. L., &amp; Bruce, P. C.
    Year:
    1991
    Abstract:
    This article is a reply to the critique of a previous paper.
  • Author(s):
    Moore, T., Peck, R., Rossman, A.
    Year:
    2001
    Abstract:
    At the invitation of the CRAFTY subcommittee, a group a statisticians and mathematicians met October 12-15 for the purpose of addressing issues about the role of undergraduate mathematics in preparing students to study statistics and the role of statistics in the undergraduate mathematics curriculum. The group included representatives from industry as well as academia, and the academicians were from a wide variety of institutional types.
  • Author(s):
    Cobb, G. W.
    Year:
    1992
    Abstract:
    This report discusses the purpose of the formation of a joint committee of the American Statistical Association and the American Mathematical Association.
    Location:
  • Author(s):
    Gilchrist, W.
    Year:
    1983
    Abstract:
    During the period of August-September 1983 I carried out a study-tour of parts of Canada and the U.S.A. This tour was supported by the polytechnic, the Institute of Statisticians (to visit the ASA), the Open Tech Project (to attend a Quality Assurance Continuing Education seminar) and, primarily, a Royal Society study grant. I would like to express my appreciation for all this support. I talked to many people and visited many organizations. I have tried to report on my visit in a list below the papers and I enclose papers as appropriate. If you wish to have copies of any other papers please let me know. Clearly the views expressed are based on one person's contacts with specific people and organizations. I hope however that, as I met many of the most respected people in the areas covered, the view presented is not too distorted.
  • Author(s):
    Dinges, H.
    Editors:
    Barnett, V.
    Year:
    1982
    Abstract:
    In the Federal Republic of Germany it is felt quite generally that some stochastics (or statistics) should be taught to high school pupils. Changes in this direction are in progress for the age-range 16-19 years.
  • Author(s):
    Hogg, R. V., et al
    Year:
    1990
    Abstract:
    There were 39 statisticians who gathered for a workshop on statistical education in Iowa City, Iowa, June 18-20, 1990. Theses persons represented universities, colleges, consulting firms, business and industry. As we prepared for the workshop, most of the 39 participants, and several others not attending, wrote papers on some aspect of statistical education, the majority of which concerned a first course in statistics. As a group, we recognized several poor characteristics of science and mathematical education, including statistical education.
  • Author(s):
    Sue Finch, Geoff Cumming and Neil Thomason
    Year:
    2001
    Abstract:
    A brief narrative description of the journal article, document, or resource. Analyzed 150 articles from the "Journal of Applied Psychology" (JAP) from 1940 to 1999 to determine statistical reporting practices related to null hypothesis significance testing, American Psychological Association guidelines, and reform recommendations. Findings show little evidence that decades of cogent criticisms by reformers have resulted in changes in statistical reporting practices in JAP

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