Kurt A. Heller scite author profile

There are probably no subject areas in which the problem of reducing gender differences is as urgent as in mathematics and the hard sciences. In this article, we provide a topical overview of the participation rates of girls and women in schools and universities, with an emphasis on the situation in Germany. We then discuss several attempts to explain these differences and show that until recently not enough attention has been paid to the girls' and women's self-related cognitions in these domains. They underestimate their own talents in mathematics and the sciences and, from a motivational perspective, attribute their successes and failures in such a way as to further inhibit motivation. Attributional retraining techniques could provide a solution to the problems of lowered motivation and performance. These retraining techniques have proved successful in clinical and laboratory settings, but they have not been tried in natural settings like schools and universities. Following an overview of the most important attributional retraining techniques, we describe two studies carried out with German high school students in mathematics and with female university students in statistics. Using an attributional retraining technique we developed, both studies report extremely promising results. Finally, on the basis of these studies, suggestions for further research are made.

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Scientific ability and creativity

Heller¹

2007

High Ability Studies

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A comparison of relaxation time distributions obtained from dynamic light scattering and dynamic mechanical measurements for high-molecular-weight polystyrene in entangled solutions

Nicolai¹,

Brown²,

Hvidt³

et al. 1990

Macromolecules

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The purpose of this work was to examine possible similarities between the relaxation time distributions for polystyrene in semidilute solutions in the solvent bis(2-ethylhexyl) phthalate (dioctyl phthalate, DOP) obtained from dynamic light scattering (DLS) and dynamic mechanical (DM) measurements. The paper deals mainly with the influence of concentration and molecular weight but also with the role of solvent quality through change in temperature. The DLS and DM relaxation functions have been analyzed by inverse Laplace transformation (ILT) and the DLS data also by fitting the slow, q-independent, part of the spectrum to a general exponential function. It was found that with both techniques the dynamical processes probed at long times are characterized by a similar wide range of relaxation times and that the latter increases strongly with concentration and molecular weight. However, the distribution of relaxation times from DLS is much more sensitive in the slow part of the spectrum to changes in solvent quality.

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Kurt A. Heller

The Munich Model of Giftedness Designed to Identify and Promote Gifted Students

Conceptions of Giftedness from a Meta-Theoretical Perspective

Gender Differences in Mathematics and the Sciences: Can Attributional Retraining Improve the Performance of Gifted Females?

Scientific ability and creativity

A comparison of relaxation time distributions obtained from dynamic light scattering and dynamic mechanical measurements for high-molecular-weight polystyrene in entangled solutions

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