Literature Index

Displaying 1741 - 1750 of 3326
  • Author(s):
    Chu, S.
    Year:
    2001
    Abstract:
    Many statistical problems can be satisfactorily resolved within the framework of linear regression. Business students, for example, employ linear regression to uncover interesting insights in the fields of Finance, Marketing, and Human Resources, among others. The purpose of this paper is to demonstrate how several concepts arising in a typical discussion of multiple linear regression can be motivated through the development of a pricing model for diamond stones. Specifically, we use data pertaining to 308 stones listed in an advertisement to construct a model, which educates us on the relative pricing of caratage and the different grades of clarity and colour.
  • Author(s):
    Jennifer L. Green and Erin E. Blankenship
    Year:
    2013
    Abstract:
    We developed an introductory statistics course for pre-service elementary teachers. In this paper, we describe the goals and structure of the course, as well as the assessments we implemented. Additionally, we use example course work to demonstrate pre-service teachers’ progress both in learning statistics and as novice teachers. Overall, the course aims to help pre-service teachers recognize the importance of statistics in the elementary curriculum, as well as the integral role they, as teachers, can play in a student’s entire statistical education. Our course serves as a model/resource for others interested in pre-service teacher development.
  • Author(s):
    Fischbein, E., Barbat, I., & Minzat, I.
    Editors:
    Hintikka, J., Cohen, R., Davidson, D., Nuchelmans, G., & Salmon, W.
    Year:
    1975
    Abstract:
    The main objective of our research has been to study the intuitive biases corresponding to certain fundamental concepts and methods of the theory of probability. This is not simply a question of the general concepts of chance, or randomness, on which there are data already available. Research which has already been done by psychologists indicates the existence of a natural intuition of chance, or even of probability (cf. Fischbein et al., 1967, 1970a, b). However, A. Engel, a mathematician, has written: "...we have a natural geometric intuition but no probabilistic intuition". In order to elucidate this problem, we decided to go beyond the notion of chance, and try to follow the course of what, in fact, happens during the systematic teaching of certain concepts in the theory of probability. We therefore decided to study the intuitive responses of subjects to certain concepts and calculational precedures which were introduced during some experimental lessons on probability, viz. chance, and probability as a metric of chance; the multiplication of probabilities in the case of an intersection of independent events, and the addition of probabilities in the case of mutually exclusive events. Reprinted from Educational Studies in Mathematics 4 (1971), 264 - 280.
  • Author(s):
    Mickelson, W. T. & Heaton, R. M.
    Editors:
    Ben-Zvi, D. & Garfield, J.
    Year:
    2004
    Abstract:
    This study offers a descriptive qualitative analysis of one third-grade teacher's statistical reasoning about data and distribution in the applied context of classroom-based statistical investigation. During this study, the teacher used the process of statistical investigation as a means for teaching about topics across the elementary curriculum, including dinosaurs, animal habitats, and an author study. In this context, the teacher's statistical reasoning plays a central role in the planning and orchestration of the class investigation. The potential for surprise questions, unanticipated responses, and unintended outcomes is high, requiring the teacher to "think on her feet" statistically and react immediately to accomplish content objectives as well as to convey correct statistical principles and reasoning. This study explores the complexity of teaching and learning statistics, and offers insight into the role and interplay of statistical knowledge and context.
  • Author(s):
    Cobb, P. & McClain, K.
    Editors:
    Ben-Zvi, D. & Garfield, J.
    Year:
    2004
    Abstract:
    This chapter proposes design principles for developing statistical reasoning in elementary school. In doing so, we will draw on a classroom design experiment that we conducted several years ago in the United States with 12-year-old students that focused on the analysis of univariate data. Experiments of this type involve tightly integrated cycles of instructional design and the analysis of students' learning that feeds back to inform the revision of the design. To ground the proposed design principles, we first give a short overview of the classroom design experiment and then frame it as a paradigm case in which to tease out design principles that address five aspects of the classroom environment that proved critical in supporting the students' statistical learning:<br>o The focus on central statistical ideas<br>o The instructional activities<br>o The classroom activity structure<br>o The computer-based tools the students used<br>o The classroom discourse
  • Author(s):
    Borovcnik, M. G.
    Abstract:
    Probability judgments may have to be revised if new information is available. From the mathematical perspective probability revisions are intimately connected to the notion of conditional probability and Bayes' formula, a subsidiary concept and a trivial theorem respectively. Nevertheless empirical investigations in subjects' understanding of probability do indicate that people do not cope adequately with situations involving probability revisions, if they have been taught the mathematical concepts or not does not matter. In what follows I will try to sketch some phenomena of misunderstanding, give some comments on the interplay between mathematics and intuitions which I think represents the origin of lack of comprehension. A brief overview on the favor concept should enable the impression that by way of teaching this concept probabilistic reasoning could be improved.
  • Author(s):
    Schutz, P. A., Drogosz, L. M., White, V. E., &amp; Distefano, C.
    Year:
    1997
    Abstract:
    The present study used both quantitative and qualitative methods to investigate the learning and motivational strategies used by students in a beginning-level statistics course. The research questions that guided the investigation are: (1) Do motivational variables account for unique variance in the academic performance of statistics students?, (2) Do deeper-level processing strategies account for unique variance in the academic performance of statistics students?, and (3) Do successful students report using different motivation and learning strategies than unsuccessful students in a beginning-level statistics course? Ninety-four students enrolled in six sections of the same course over a two-year period completed measures designed to assess attitudes about statistics, motivation and learning strategies use as well as previous math and statistics knowledge. In addition, randomly selected participants were interviewed about how they prepared for their midterm exam. The results of the study show that both motivation and learning strategies variables influenced performance in the introduction to statistics class. These results help to expand our understanding of what is involved in the process of learning statistics. Also, suggestions for teaching statistics are explored.
  • Author(s):
    Falk, R., &amp; Bar-Hillel, M.
    Year:
    1983
    Abstract:
    In the present paper we first suggest a threefold classification of dependence relationships between pairs of events, then point out some misconceptions concerning these relationships, and, lastly, speculate as to the reasons that it is not customarily employed.
  • Author(s):
    Neuts, M. F.
    Editors:
    Vere-Jones, D., Carlyle, S., &amp; Dawkins, B. P.
    Year:
    1991
    Abstract:
    I have selected the stated problem which may be found in Takacs (1960,p.21) with a brief reference to statistical mechanics, for several reasons: its source is an important test used by many engineering students; the problem lends itself well to illustrate the ideas on imagination presented in this paper and, with imagination unfettered, it can serve to generate quite exciting purely mathematical questions.
  • Author(s):
    Biehler, R.
    Year:
    1994
    Abstract:
    My interest is in the relationship between probability and statistics (data analysis) with regard to teaching and learning. Ideas for teaching (exploratory) data analysis with no preparation in probability emphasize, among other things, finding relationships in sets of variables, identifying relevant variables, interpreting data with regard to sources of variation, possible explaining factors and causes. Probability is often introduced as an antithesis to deterministic situations. Some empirical research even blames children for looking for causes where there is "really" randomness. There is other research taking positions against stochastics.

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

register