[Title: The 21st Century Innovative Learning]. The 21st-century education paradigm has experienced a shift marked by differences in learning orientations. The learning of the previous century emphasized literacy in reading, writing, and mathematics, wherein the 21st century they were used as the basis for developing new literacy, namely human, data and technological literacy which is very important to face the current and future globalization era. Innovative learning in the 21st century is oriented towards activities to practice essential skills according to the framework for 21st-century skills, namely life and career skills, innovation and learning skills, and information, media and ICT skills. Learning characteristics to train these essential skills, lead to learning processes that are interactive, holistic, integrative, scientific, contextual, thematic, effective, collaborative, and student-centred so that in their implementation educators can design activities by selecting learning methods/models that can accommodate overall characteristics are comprehensive. Assessment in 21st century learning is compiled and developed to measure student learning achievement which includes knowledge competencies (critical thinking and problem solving, creativity and innovation, collaboration, communication), intrapersonal competencies (work skills in teams, collaboration, communication, cooperation, and coordination), and interpersonal competence (the ability to work with others such as the ability to self-management, cooperation, effective communication, and the ability to maintain relationships with others emotionally). Thus, innovative learning in the 21st century creates human resources that are literate with information, data and technology that are needed to face the competition for life and the labour market in the current and future globalization era.
This study aim to explore the effects of presenting anomalous data on improving student’s critical thinking ability. This study is an experimental research conducting on one-group pretest-posttest design. Purposive sampling was used in this study, where one class group was used as a sample of the study, namely 36 students of senior high school at MA Hidayaturrahmah NW Menggala, North Lombok, West Nusa Tenggara, Indonesia. The data of CT ability collected by instrument refer to Ennis-Weir Critical Thinking Essay Test. The data analysis descriptively and statistically were done to process the data of research. Path analysis was used to evaluate the contribution of presenting anomalous data on improving student’s critical thinking ability. The results of this study indicate that the presenting anomalous data at initial learning have an effect and contribute on improving student’s critical thinking ability. Further reviews are described in this article.
The purpose of this study is to increase metacognitive awareness and student learning achievement through the implementation of Problem Solving learning. Learning achievement in this study include the cognitive, affective, and psychomotor aspects on temperature and heat learning material. This study used Classroom action research conducted in 3 cycles consisting of planning, implementation, observation, evaluation, and reflection. Students' metacognitive awareness data obtained through metacognitive awareness questionnaire and students' activity in worksheet used to control Students' metacognitive awareness. Student learning achievement was taken with multiple-choice test techniques for cognitive learning achievement, practicum activities and presenting practicum results for affective and psychomotor learning achievement tailored to affective and psychomotor indicators. The conclusion of this research is through the implementation of Problem Solving learning can increase metacognitive awareness and student learning achievement.
Acid-base material is one subject that is considered difficult by students. In addition, students are less able to associate material with a problem or phenomenon in everyday life. The development of a teaching material in the form of modules can be seen as a solution to this problem. This study aims to develop a prototype in the form of developing contextual-based chemical modules to build students' conceptual understanding of acid-base material. This research is a development research with ADDIE model design (Analysis, Design, Development, Implementation, and Evaluation). The results of the development were validated by two expert validators, one practitioner validator and ten MA Al-Mansyurati NW Aik Bukak students as students' limited test validators. Quantitative data from the results of feasibility validation were analyzed by percentage formula. Qualitative data in the form of responses and suggestions for improvement from the validator are used as considerations to make revisions to the modules developed. In general, the validator's assessment of the results of the development obtained an average percentage of material expert validators 88.8%, product design expert validators 95%, practitioner validators 92%, and limited trials of students 85.28%. This shows that the developed module is very feasible to proceed to the effectiveness test phase. Thus it can be concluded that the contextually based modules are declared to be feasible with very good quality.
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