Literature Index

Displaying 1461 - 1470 of 3326

  • Letting students understand why statistics is worth studying.

    Author(s):
    Sowey, E. R.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    Whether they are studying statistics as a disciplinary major or through service courses, students will be more motivated towards what they are learning, and will retain a richer recall of it, if they feel they are doing something worthwhile. I have previously argued that three elements in teaching are salient in giving a sense of worthwhileness: showing that statistics is interesting, useful, and substantial. The first two of these elements are already well discussed. But letting statistics be seen as a substantial discipline, in the sense of being resilient to challenging questioning prompted by students' own curiosity, has not been previously addressed in the statistics education literature. Here I show the kinds of challenging questions which serve this goal. The answers given need not be overly-detailed: what matters is that they satisfy students' curiosity. In this way they strengthen the students' sense that statistics is worth the effort of study.
    Location:
    http://www.stat.auckland.ac.nz/~iase/publications/17/3A1_SOWE.pdf

  • Lexical Ambiguity in Statistics: How students use and define the words: association, average, confidence, random and spread

    Author(s):
    Jennifer Kaplan, Diane G. Fisher, and Neal T. Rogness
    Year:
    2010
    Abstract:
    Language plays a crucial role in the classroom. The use of specialized language in a domain can cause a subject to seem more difficult to students than it actually is. When words that are part of everyday English are used differently in a domain, these words are said to have lexical ambiguity. Studies in other fields, such as mathematics and chemistry education, suggest that in order to help students learn vocabulary instructors should exploit the lexical ambiguity of the words. The study presented here is the second in a sequence of studies designed to understand the effects of and develop techniques for exploiting lexical ambiguities in statistics classrooms. In particular, this paper looks at five statistical terms and the meanings of these terms most commonly expressed by students at the end of an undergraduate statistics course.
    Location:
    http://www.amstat.org/publications/jse/v18n2/kaplan.pdf

  • Lexical Ambiguity in Statistics: What do students know about the words association, average, confidence, random and spread?

    Author(s):
    Jennifer J. Kaplan, Diane G. Fisher, and Neal T. Rogness
    Year:
    2009
    Abstract:
    Language plays a crucial role in the classroom. The use of specialized language in a domain can cause a subject to seem more difficult to students than it actually is. When words that are part of everyday English are used differently in a domain, these words are said to have lexical ambiguity. Studies in other fields, such as mathematics and chemistry education suggest that in order to help students learn vocabulary instructors should exploit the lexical ambiguity of the words. The study presented here is a pilot study that is the first in a sequence of studies designed to understand the effects of and develop techniques for exploiting lexical ambiguities in the statistic classroom. In particular, this paper describes the meanings most commonly used by students entering an undergraduate statistics course of five statistical terms.
    Location:
    http://www.amstat.org/publications/jse/v17n3/kaplan.html

  • License Plates as an Introduction to Statistics

    Author(s):
    Landauer, E. G.
    Year:
    1984
    Abstract:
    Describes a student project which illustrates interrelationships among the topics of random sampling, relative frequency concept of probability, design of experiments, and computer generation of data and which involves determining the configurations of numbers and letters on license plates through a microcomputer program. The computer program is included. (MBR)

  • Linear Regression: The Computer as a Teaching Tool

    Author(s):
    Laviolette, M.
    Year:
    1994
    Abstract:
    Computers and software can be used not only to analyze data, but also to illustrate essential statistical topics. Methods are shown for using software, particularly with graphics, to teach fundamental topics in linear regression, including underlying model, random error, influence, outliers, interpretation of multiple regression coefficients, and problems with nearly collinear variables. Systat 5.2 for Macintosh, a popular package, is used as the primary vehicle, although the methods shown can be accomplished with many other packages.
    Location:
    http://www.amstat.org/publications/jse/v2n2/laviolette.html

  • Linked visualizations and interactivity: Developing a qualitative understanding of statistics

    Author(s):
    Rosebery, A. S.
    Year:
    1989
    Abstract:
    Computer scientists have been designing and experimenting with interactive, graphical interfaces for several years now. Recently, educational technologists have begun to take advantage of these advances. With funding from the Applications of Advanced Technologies program in the Division of Science and Engineering Education at the National Science Foundation of group of researchers at BBN are designing and developing interactive, graphical mini-laboratories to help students develop a qualitative understanding of statistics. These Macintosh-based mini-labs allow students to explore statistical concepts and processes by manipulating graphical objects.
    Location:
    RISE

  • Linking technology, learning and school change

    Author(s):
    Feldman, A., Coulter, R., & Konold, C.
    Year:
    2000
    Abstract:
    In the final part of a four-part series, the writers reflect on the ways in which teaching practices need to change if they are to take advantage of rapidly emerging technologies. They investigate what a classroom looks like and how student learning is widened and deepened when technology is integrated thoroughly into teaching and learning, and examine how schools or districts can support teachers in their integration of technology into teaching and learning practices.

  • Listen to the students: Understanding and supporting students' reasoning about variation.

    Author(s):
    Reading, C., & Reid, J.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    During a research project investigating understanding of variation students in a tertiary level introductory statistics course completed a questionnaire prior to, and at the end of, the course. This paper reports on interviews of selected students designed to determine whether more information could be gathered, and to identify those teaching and learning activities that assisted students to develop understanding. Prompting assisted students to develop better quality responses but cognitive conflict situations proved challenging. The diversity of activities identified by students as assisting development of understanding provides a challenge for educators in planning teaching sequences. Both educators and researchers need to listen to students to better understand the development of reasoning.
    Location:
    http://www.stat.auckland.ac.nz/~iase/publications/17/6A1_READ.pdf

  • Literacy in the Language of Mathematics.

    Author(s):
    Bullock, J. O.
    Year:
    1994
    Abstract:
    Expresses concern over the current mathematics education of students and discusses mathematics as a language, including: reading critically, mathematical metaphors, mathematical literature, the nature of knowledge, and how one becomes mathematically literate.

  • Live figures: Interactive Diagrams For Statistical Understanding

    Author(s):
    Cumming, G.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    Line diagrams may assist statistical understanding, but a colourful animated interactive version may be even better. Modern software, in particular Microsoft Excel, now makes it easy to build such live figures. The author describes live figures and presents examples in the context of promoting understanding and use of confidence intervals. Interface design principles and expertise in statistical education should be combined to develop effective live figures. Animation, multiple representations, engagement through interactivity, and vivid 'take-home' images can all be valuable. Investigation of how best to design live figures and use them with journal papers and books should prove educationally valuable.
    Location:
    http://www.stat.auckland.ac.nz/~iase/publications/1/7g4_cumm.pdf

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

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