Literature Index

Displaying 1971 - 1980 of 3326
  • Author(s):
    Posten, H. O.
    Year:
    1981
    Abstract:
    Two reasons are given for the lack of adequate teaching in statistics: the newness of the field and students' lack of conceptual background. The author discusses the importance of the Schools Council Project for making significant progress in this area. The aim of this project is to produce appropriate teaching materials that are consistent with the teaching principles developed by the committee. The curriculum is divided into eight units, each lasting 4 to 5 hours. Students are grouped into four levels corresponding to ages 11-12, 12-13, 13-14, and 14-15. Units were well-constructed and designed for the general student with each topic carefully broken down and developed. The teachers' notes were carefully constructed and an integral part of each unit. These contained description of aims, objectives, prerequisites, equipment, and planning.
  • Author(s):
    Kapadia, R.
    Year:
    1995
    Abstract:
    Rezension von Hawkins, A.; Jolliffe, F.; Glickman, L.: Teaching statistical concepts. Stochastische Begriffe und Begriffsbildungen unterrichten. 1992.
  • Author(s):
    Rinaman, W. C.
    Year:
    1998
    Abstract:
    Members of the faculty of Le Moyne College made sweeping changes in the basic statistics course provided for the social and life sciences by the Department of Mathematics. The departments involved undertook an intensive collaboration. Intense scrutiny was given to the purpose and goals of the course. The result is a course that is significantly different from its predecessor. It places more emphasis on concepts and technology. A laboratory component was added to give students experience with Minitab and messy datasets. The implementation of the course had the expected problems. These are documented along with what was done to improve the course the second time it was offered.
  • Author(s):
    Borovcnik, M. G.
    Editors:
    Davidson, R., & Swift, J.
    Year:
    1986
    Abstract:
    In what follows I will try to sketch some phenomena of misunderstanding ideas of probability, and give some comments on the interplay between mathematics and intuitions which I think represents the origin of lack of comprehension. A brief overview of the favor concept should enable the impression that by way of teaching this concept probabilistic reasoning could be improved.
  • Author(s):
    Susan A. Peters
    Year:
    2011
    Abstract:
    This paper presents a framework that captures the complexity of reasoning about variation in ways that are indicative of robust understanding and describes reasoning as a blend of design, data-centric, and modeling perspectives. Robust understanding is indicated by integrated reasoning about variation within each perspective and across perspectives for four elements: variational disposition, variability in data for contextual variables, variability in relationships among data and variables, and effects of sample size on variability. This holistic image of robust understanding of variation arises from existing expository and empirical literature, and additional empirical study.
  • Author(s):
    Cobanovic, K.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    This paper deals mainly with the experiences of teaching statistics at the Agricultural Faculty in Novi Sad. Statistics was incorporated into the teaching programmes for students from the establishment of the Agricultural Faculty in 1954. Statistical programmes are oriented to different agricultural courses at the Faculty. Statistical education for agriculturists tries to give them a solid foundation in statistics. An emphasis is placed on mastering a wide use of statistical methods in order to allow the students to apply these techniques in many fields of agricultural science like: field crops production, vegetable crop production, horticulture, fruit growing, grape production, plant protection, livestock, veterinary medicine, agricultural mechanization, water resources, agricultural economics etc. Problems and dilemmas encountered in statistical education will be presented and some ideas on how to improve the teaching of agricultural statistics. It is expected that the statistical knowledge achieved by finished agricultural students will provide a solid foundation for master degree studies in Biometrics. It is necessary to emphasize the important role of teaching statistics to agricultural students for improving their general knowledge and for better use of statistical methods in research work.
  • Author(s):
    Weili Xu, Yuchen Zhang, Cheng Su, Zhuang Cui, and Xiuying Qi
    Year:
    2014
    Abstract:
    This study explored threshold concepts and areas of troublesome knowledge among students enrolled in a basic biostatistics course at the university level. The main area of troublesome knowledge among students was targeted by using technology to improve student learning. A total of 102 undergraduate students who responded to structured questionnaires were included in this study. The results suggest that threshold concepts regarding “statistics” and “random sample” need to be better understood. “Confidence interval” and “hypothesis testing” were the two most frequent troublesome areas among the participants. The pedagogical role of technology in teaching and learning statistics, and the mechanisms whereby technology may improve student learning were discussed.
  • Author(s):
    Hansen, R. S., McCann, J., & Myers, J. L.
    Year:
    1985
    Abstract:
    "Forty-eight sutdents with no previous exposure to probability or statistics read one of three texts that varied in the emphasis placed on rote and conceptual learning of basic concepts of elementary probability. A qualitative analysis of errors on a postinstruction test employed a model of problem solving whose stages were categorization of the problem, retrieval of the appropriate formula, and translation of values from the problem into the formula. Variations in performance on problems requiring the same formula for solution were largely attributable to surface features that affected the ease of categorization and translation. Students who read a text that emphasized conceptual learning tended to be less sensitive to surface features, which parallels results regarding novices and experts in various content domains."
  • Author(s):
    Bakker, A.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    This paper contrasts two types of educational tools: a route-type series of so-called statistical minitools (Cobb et al., 1997) and a landscape-type construction tool, named Tinkerplots (Konold & Miller, 2001). The design of the minitools is based on a hypothetical learning trajectory (Simon, 1995). Tinkerplots is being designed in collaboration with five mathematics curricula and is open to different approaches. Citing experiences from classroom-based research with students aged ten to thirteen, I show how characteristics of the two types of tools influence the instructional decisions that software designers, curriculum authors, and teachers have to make.
  • Author(s):
    Hedman, B.
    Editors:
    Vere-Jones, D., Carlyle, S., & Dawkins, B. P.
    Year:
    1991
    Abstract:
    This paper addresses the importance of making both the women's and the men's worlds visible. Women and men should always be presented side by side in statistics. From that it is possible to judge if women and men are both visible to the same extent in the real world in all areas of society and to evaluate how far we have reached concerning the quantitative aspect of equal opportunity.

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