Scientific creativity plays an essential role in science education as an advanced cognitive ability that inspires students to solve scientific problems inventively. The cultivation of scientific creativity relies heavily on effective assessment. Typically, human raters manually score scientific creativity using the Consensual Assessment Technique…

Background: Fostering students' creativity is a key feature of education. While Chinese students score well on international measures of science attainment, their performance on measures of science creativity is less impressive. Purpose: To develop an analytical model for science classroom creativity in China and examine its likely applicability,…

The engineering design process (EDP) can be a wonderful tool to nurture creative problem-solving abilities, prepare students to tackle problems with intentional planning, and encourage learning from failures. Many lesson plans and instructional strategies are guided by the EDP (Hill Cunningham, Mott, and Hunt 2018). In this article, the authors…

The BIOSEL (Biotechnology Series Learning) model is a learning model that provides opportunities for students to assemble learning through a conceptual description of the coherent and precise steps of Biotechnology implementation. The purpose of this research was to analyze validity and practicality of the BIOSEL model to improve the concept…

This study suggests an engineering design process-based (EDP-based) teaching and learning model in science education and examines its educational potential for scientifically gifted students. This model consists of activities designed to help students come up with creative solutions using the engineering design process in a methodological manner…

The purpose of this research was to design and develop a teaching and learning module using Problem-Based Learning and Cooperative Learning (PBLCL) and evaluate its effects on scientific creativity of pre-schoolers. The module was developed using the ADDIE instructional design model which included five phases: Analysis, Design, Development,…

The Teaching, Learning and Creativity (TLC) model suggests a wide variety of activities in three different phases. In the Teaching Phase, the teacher will discuss, demonstrate key experiments and provide data for pupils to interpret. In the Learning Phase, pupils will analyse text, do a simple test and write an essay. In the Creativity Phase,…

With regard to the growing interest in developing teacher education to match the twenty-first-century skills, while many assumptions have been made, there has been less theoretical elaboration and empirical research on this topic. The aim of this article is to present our pedagogical framework for the twenty-first-century learning practices in…

Educators know that creativity and innovation involve questioning and the capacity to frame topics as problems to be solved. They know that we are living in a time of a new generation of standards, including the Common Core State Standards (CCSS). In the U.S., compliance with these standards requires that educators encourage students to ask…

Creativity has emerged in the focus of neurocognitive research in the past decade. However, a heterogeneous pattern of brain areas has been implicated as underpinning the neural correlates of creativity. One explanation for these divergent findings lies in the fact that creativity is not usually investigated in terms of its many underlying…

The displaying of a sense of wonder when responding to aesthetic experiences of natural phenomena has been identified as having a significant impact on an individual's learning in primary science education. This paper attempts to review the significance of the influence of "wonder" arising from students aesthetic reactions to exploratory…

This paper surveys some major trends from research on visual and spatial thinking coming from cognitive science, developmental psychology, science literacy, and science studies. It explores the role of visualisation in creativity, in building mental models, and in the communication of scientific ideas, in order to place these findings in the…

A study of 147 Westinghouse Science Talent Search winners classified 57 subjects as independent problem finders. They were asked to select five of the 31 factors in Guilford's Structure of Intellect model which best described the process of choosing their research question. Implications for educating secondary science students are discussed. (VW)

Science and mathematics education needs to serve several (possibly contradictory) motivating goals. One is found in the movement for a universal literacy in the central principles and methods of the disciplines. The second is the need to provide the experiences and background that makes possible the production of scientists and engineers. A…

This case study describes a teacher's development of and creativity in manipulating physical models in an astronomy course for in-service science teachers of K-8. Specifically, she organized a data table from several charts of numbers, constructed a moon-ball model in addition to a 2-D model, and created a hula hoop model as a concrete realization…