Development of competence-oriented curricula is still an important theme in informatics education. Unfortunately informatics curricula, which include the domain of logic programming, are still input-orientated or lack detailed competence descriptions. Therefore, the development of competence model and of learning outcomes' descriptions is essential for the learning process in this domain. A prior research developed both. The next research step is to formulate test items to measure the described learning outcomes. This article describes this procedure and exemplifies test items. It also relates a test in school to the items and shows which misconceptions and typical errors are important to discuss in class. The test result can also confirm or disprove the competence model. Therefore, this school test is important for theoretical research as well as for the concrete planning of lessons. Quantitative analysis in school is important for evaluation and improvement of informatics education.
This two-wave longitudinal study examined how developmental changes in students’ mastery goal orientation, academic effort, and intrinsic motivation were predicted by student-perceived support of motivational support (support for autonomy, competence, and relatedness) in secondary classrooms. The study extends previous knowledge that showed that support for motivational support in class is related to students’ intrinsic motivation as it focused on the developmental changes of a set of different motivational variables and the relations of these changes to student-perceived motivational support in class. Thus, differential classroom effects on students’ motivational development were investigated. A sample of 1088 German students was assessed in the beginning of the school year when students were in grade 8 (Mean age D 13.70, SD D 0.53, 54% girls) and again at the end of the next school year when students were in grade 9. Results of latent change models showed a tendency toward decline in mastery goal orientation and a significant decrease in academic effort from grade 8 to 9. Intrinsic motivation did not decrease significantly across time. Student-perceived support of competence in class predicted the level and change in students’ academic effort. The findings emphasized that it is beneficial to create classroom learning environments that enhance students’ perceptions of competence in class when aiming to enhance students’ academic effort in secondary school classrooms.
How Things Work
(2015)
Recognizing and defining functionality is a key competence
adopted in all kinds of programming projects. This study investigates
how far students without specific informatics training are able to identify
and verbalize functions and parameters. It presents observations
from classroom activities on functional modeling in high school chemistry
lessons with altogether 154 students. Finally it discusses the potential
of functional modelling to improve the comprehension of scientific
content.
Zukünftige Lehrkräfte auf den Umgang mit Heterogenität vorzubereiten, besonders im Primarschulbereich, ist ein Ziel der Lehrkräftebildung. Ein Ansatz dazu ist die Förderung diagnostischer Kompetenzen von Studierenden. E-Learning-Angebote bieten hierzu angesichts der Individualisierung von Lernprozessen sowie der Möglichkeiten einer Integration in bereits bestehende Seminare viele Vorteile. Im Rahmen der Qualitätsoffensive Lehrerbildung wurde daher ein Online-Training entwickelt, das die mathematische Diagnosekompetenz von Studierenden stärken soll. Das Training ist ein E-Learning-Angebot, das im Selbststudium durchlaufen werden kann und aus Lehrvideos, interaktiven Schüler:innenvideos und interaktiven Übungen besteht. An der Universität Potsdam wurde das Training bisher in drei Seminaren des Lehramtsstudiums für die Primarstufe integriert und evaluiert. Aus der Evaluation mittels Fragebögen ging hervor, dass von Studierenden und Lehrenden die Integration positiv bewertet wird.