The purpose of the study was to investigate the effect of conceptual change-oriented instruction accompanied by computer-based interactive conceptual change text (CBICCT) on 11th grade students understanding of electrochemistry. The study was conducted in a high school in Ankara with 66 students enrolled in two science classes. A quasi-experimental design was used. The classes were assigned to groups; one as a control group and the other as an experimental group. While the control group was given traditional instruction, the experimental group was given conceptual change-oriented instruction accompanied by CBICCT. The Electrochemistry Concept Test (ECT) was administered before and after treatment. To investigate possible covariates, the Science Process Skills Test (SPST) was administered after treatment. The gain scores of ECT were analyzed with two-way ANCOVA when SPST scores were controlled as covariates, and the results showed that the experimental group developed a significantly better understanding of concepts than the control group. The results also showed that there was no mean difference between males and females and no interaction effect between instruction method and gender.

Recently, in Indonesia, project-based learning (PjBL) has been used as an alternative approach in the teaching and learning process. Research on PjBL has been widely conducted in many countries at various levels. In most previous studies, PjBL was used to improve students' competence in certain math subjects. This study uses a case study research method to determine the effectiveness of PjBL at university in improving pre-service teachers' PCK. The research was carried out in 2022 involving fourteen mathematics education study program students selected by purposive sampling. The instruments used consisted of observation sheets, tests, and questionnaires. During the PjBL activity, participants were given a project to develop teaching materials for geometric transformation using certain teaching-learning strategies. The results of the study show that PjBL can improve students' PCK ability, although participants face several obstacles related to commitment to completing projects on time. Therefore, PjBL can be applied in the teaching-learning process to support professional mathematics teachers.

As skills-gap between available skills and in-demand skills in the Solar Energy Technology Sector (SETS) continues to expand due to rapid growth of the sector, the need for Higher Education Institutions (HEIs) to design and run critical Solar Energy Technology Training (SETechTra) modules has become imperative. Informed by the findings from SETechTra project – which includes extensive literature reviews, stakeholder interviews, observations, feedback from pilot model involving circa 1500 students from schools/colleges across four European countries, this article reports on a developed strategic undergraduate (UG) 30-credit module. The module is designed to embed in-demand skills in SETS within students enrolled upon wider Science, Technology, Engineering, and Mathematics (STEM) courses. The contents of the module comprise learning and teaching activities engineered to embed key identified academic, industrial, and entrepreneurial in-demand skills in SETS in STEM UG students. Formative and summative assessments are the implemented assessment strategy used to evaluate the effectiveness and impact of the module in the pilot model. Analysis of feedback from the pilot model demonstrations indicates significant positive impact, giving a promising indication of wider applicability to HEIs across Europe interested in fast-tracking production of more SETS industry-ready graduates.

Multimedia instructional strategies (MIS) have been shown to significantly enhance learners’ academic performance in mastering challenging chemistry concepts. However, few studies have specifically investigated using MIS to enhance students’ conceptual understanding of molecular hybridisation. This study employed a nonequivalent two-group pre-test/post-test quasi-experimental design to determine the impact of MIS on students’ conceptual understanding of hybridisation. Data were collected from 60 second-year senior high school students using a diagnostic test and an interview guide. Pre-tests and post-tests were administered to two intact classes of 30 students each: one served as the experimental group and the other, the control group,  purposively sampled from two different schools. The results revealed that students in the experimental group (taught using MIS) achieved significantly higher post-test scores than those in the control group (taught using conventional methods). Additionally, the experimental group exhibited a significant improvement from pre-test to post-test scores, whereas the control group’s pre-test and post-test scores did not differ significantly. Moreover, MIS was highly interactive, promoted student interest, and enhanced students’ understanding of hybridisation. Therefore, the study recommends that science educators incorporate MIS into their instruction to improve students’ conceptual understanding of other abstract chemistry concepts. The implications of these findings are discussed in detail, highlighting the potential of MIS in chemistry education.