Abstract
We investigated the scientific reasoning competencies of pre-service science teachers (PSTs) using a multiple-choice assessment. This assessment targeted seven reasoning skills commonly associated with scientific investigation and scientific modeling. The sample consisted of 112 PSTs enrolled in a secondary teacher education program. A latent class (LC) analysis was conducted to evaluate if there are subgroups with distinct patterns of reasoning skills. The analysis revealed two subgroups, where LC1 (73% of the PSTs) had a statistically higher probability of solving reasoning tasks than LC2. Specific patterns of reasoning emerged within each subgroup. Within LC1, tasks involving analyzing data and drawing conclusions were answered correctly more often than tasks involving formulating research questions and generating hypotheses. Related to modeling, tasks on testing models were solved more often than those requiring judgment on the purpose of models. This study illustrates the benefits of applying person-centered statistical analyses, such as LC analysis, to identify subgroups with distinct patterns of scientific reasoning skills in a larger sample. The findings also suggest that highlighting specific skills in teacher education, such as: formulating research questions, generating hypotheses, and judging the purposes of models, would better enhance the full complement of PSTs’ scientific reasoning competencies.
Highlights
Scientific reasoning has been a subject of study in the field of science education for some time [1]
Because the Bayesian information criterion (BIC) (2 latent classes) and sample size adjusted Bayesian information criterion (ssaBIC) (4 latent classes) suggest selecting different latent class analyses (LCA) models, the number of extreme values and the probability of assignment have been used as additional indicators
It can be assumed that the response pattern of the pre-service science teachers (PSTs) is best represented using two latent classes
Summary
Scientific reasoning has been a subject of study in the field of science education for some time [1]. We have assessed reasoning amongst this group because they will need to teach and demonstrate reasoning to their future students in science, and we can design activities in science teacher education that can enhance their competency in this field. Reasoning in the sciences requires cognitive processes that can contribute to, or allow for, inquiring and answering questions about the world and the nature of phenomena. These cognitive processes include formulating and evaluating hypotheses, two of several processes regularly invoked in scientific domains [7,8]
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