Literature Index

Displaying 871 - 880 of 3326
  • Author(s):
    Maria Meletiou-Mavrotheris, Efstathios Mavrotheris, Efi Paparistodemou
    Year:
    2011
    Abstract:
    We provide an overview of EarlyStatistics, an online professional development course in statistics education targeting European elementary and middle school teachers. The course facilitates intercultural collaboration of teachers using contemporary technological and educational tools. An online information base offers access to all of the course content and resources.
  • Author(s):
    Jacqueline Wroughton and Tarah Cole
    Year:
    2013
    Abstract:
    Recognizing the differences between three discrete distributions (Binomial, Hypergeometric and Negative Binomial) can be challenging for students. We present an activity designed to help students differentiate among these distributions. In addition, we present assessment results in the form of pre-and post-tests that were designed to assess the effectiveness of the activity. Pilot study results show promise that the activity may help students recognize the differences in these three distributions.
  • Author(s):
    Lopes, L. L., & Oden, G. C.
    Year:
    1987
    Abstract:
    Subjects judged whether binary strings had been generated by a random or a nonrandom process.
  • Author(s):
    Lehrer, R. & Schauble, L.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    The studies we present investigate elementary students' reasoning about distributions in two contexts: (a) measurement and (b) naturally occurring variation. We first summarize an investigation in which fourth-graders measured the heights of a variety of objects and phenomena, including the school's flagpole, a pencil, and several launches of model rockets. Students noted that the measurements were distributed and that sources of error corresponded to differences in qualities of distribution, especially spread. Next, students investigated the distributions of measurements of height for rockets of different design, to learn whether and how they could be confident that rockets with rounded nose cones "really" went higher than those with pointed nose cones. We then turn to the naturally-occurring variation context, in which these same students (now fifth-graders) studied the growth of Wisconsin Fast Plants(tm), fast-growing members of the Brassica family that enable multiple cycles of classroom observation and experiment within a school year (life cycle is about 40 days). We recount how students became adept at using changing shapes of distributions to support plausible accounts of growth processes. Questions about what would be likely to happen "if we grew them again" motivated investigations of sampling, which, in turn, suggested choices of statistics to represent a sample distribution. Finally, students invented means for considering how one might know whether two different distributions of measures could reasonably be considered "really different."
  • Author(s):
    Todd A. Schwartz, Rebecca R. Andridge, Kirstin L. Sainani, Dalene K. Stangle & Megan L. Neely
    Year:
    2016
    Abstract:
    “Flipping” the classroom refers to a pedagogical approach in which students are first exposed to didactic content outside the classroom and then actively use class time to apply their newly attained knowledge. The idea of the flipped classroom is not new, but has grown in popularity in recent years as the necessary technology has improved in terms of quality, cost, and availability. Many biostatistics instructors are adopting this format, but some remain unsure whether such a change would benefit their students. One potential barrier to adopting a flipped classroom is the common misconception that only a single approach is available. Having adopted the flipped approach in their own courses, the authors participated in an invited panel at the 2014 Joint Statistical Meetings held in Boston, Massachusetts entitled “Flipping the Biostatistics Classroom.” A theme emerged from the panel's discussions: rather than being a one-size-fits-all approach, the flipped biostatistics classroom offers a high degree of flexibility, and this flipped approach can—and should—be tailored to instructors' specific target audience: their students. Several of these varied approaches to the flipped classroom and practical lessons learned are described.
  • Author(s):
    Kathryn Plank and Michele DiPietro,
    Year:
    2008
    Abstract:
    There are many good reasons to incorporate thinking about diversity into a course, not the least of which is that it can have a real impact on student learning and cognitive development. In this webinar, we will explore both how the tools of statistics can help students better understand complex and controversial issues, and, in the other direction, how using these complex and controversial issues can help facilitate deeper learning of statistics.
  • Author(s):
    Phillips, A. M.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    In 1985 the concept of a "DNA fingerprint" was introduced as a means of evaluating human identity and relatednes. (Jeffreys, Wilson, & Thein, 1985). The possible forensic and legal applications of DNA evidence were quickly appreciated and such data are now frequently presented in court cases involving serious crimes such as murder and rape. DNA evidence is also used in establishing paternity, in determining relatedness in immigration and inheritance disputes, and in identifying disaster victims. Such cases, especially those involving famous people, are widely reported in the media and are of interest to the general population. Also, many people will be called to serve on juries in cases where DNA evidence is presented. As statistical concepts are involved in evaluating such evidence, "DNA fingerprinting" as a topic can be used to introduce statistical analysis to undergraduates. If a non-mathematical approach is taken many concepts can be taught to secondary school children, extending their understanding of statistics while holding their interest with practical " real-life" examples.
  • Author(s):
    Dickman, G. E.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    This paper will report on the outcomes for international students from two different cohorts, undertaking equivalent courses. The two streams are differentiated by their course entry standards. The entry level for one stream is an academic ENTER score of 68 and an IELTS language score of 5.5 and for the other an academic ENTER score of 80 with an IELTS language score of 6.0 was needed. Each of these two cohorts' is taught in a different manner. The two cohorts of students have been tracked over a period of years and their educational outcomes compared. The tracking indicates that the student cohort with the lower entry level has achieved similar outcomes to that with the higher entry level. Can it be concluded that the similarity in outcomes can be attributed to teaching methodology?
  • Author(s):
    Smeeton, N.
    Editors:
    Goodall, G.
    Year:
    2003
    Abstract:
    Summary The issue of whether football teams have good or bad patches during the course of a season is of concern to many supporters. This interest can be harnessed to make the classroom teaching of probability more relevant. In this article, the unfamiliar runs test for multiple outcomes is used to test for possible clustering in wins, draws and defeats in a short series of consecutive matches.
  • Author(s):
    Thomas J. Pfaff and Aaron Weinberg
    Year:
    2009
    Abstract:
    This article describes the design, implementation, and assessment of four hands-on activities in an introductory college statistics course. In the activities, students investigated the ideas of the central limit theorem, confidence intervals, and hypothesis testing. Five assessments were administered to the students, one at the beginning and end of the course, and three in between the activities. We found that, despite our attempts to engage our students in active reflection, their performance on the assessments generally did not improve. These results raise important issues about the design of pedagogical tools and activities as well as the need to gather data to assess their effectiveness.

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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

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