Self-directed student learning begins with self-directed educators. Teachers in Greenville, North Carolina, are training in the Habits of Mind, a series of thinking behaviors that support self-directed learning by helping students successfully tackle complex problems. The authors outline key instructional strategies that have grown from these…

This groundbreaking book looks at the development of mathematical thinking in infants and toddlers, with an emphasis on the earliest stage, from zero to three, when mathematical thinking and problem solving first emerge as natural instincts. The text explores the four precursor math concepts--attribute, comparison, change, and pattern--with an…

Artificial intelligence (AI) literacy has emerged to equip students with digital skills for effective evaluation, communication, collaboration, and ethical use of AI in online, home, and workplace settings. Countries are increasingly developing AI curricula to support students' technological skills for future studies and careers. However, there is…

Are you cultivating the real-world creative problem-solving skills today's diverse learners need for future success? Or have we leaned so far into test preparation that we have left no room for developing our students' unique talents, leaving them disengaged and unmotivated? With the new brain-based Talent-Targeted Teaching and Learning model…

We share ideas for preparing for and enacting high-cognitive demand tasks in ways that support students in articulating and justifying their ideas. We offer strategies for developing and posing several types of purposeful questions: (1) eliciting thinking, (2) generating ideas, (3) clarifying explanations, and (4) justifying claims.

As science teachers, we often show animations and videos in class but there is the potential for students to create their own animations to represent science concepts and thus make their conceptions visible for critique and refinement. This encourages students to be active in their own learning, creating animations rather than just viewing them.…

Student learning communities (SLCs) are more than just a different way of doing group work. Like the professional learning communities they resemble, SLCs provide students with a structured way to solve problems, share insight, and help one another continually develop new skills and expertise. With the right planning and support, dynamic…

Over the course of the past decade, the state of Louisiana has developed several documents to articulate expectations for children's learning and development and provide guidance for early childhood educators. The experiences and skills that children develop during the early years are critically important to their success later in school. What…

Drawing on data from a US study of nine mentors and mentees, including mentee scores on the Reasoning about Current Issues (RCI) Test, which offers a measure of cognitive complexity, the authors explore how differences in cognitive complexity were related to role expectations, conceptions of teaching problems, and the use of evidence for…

This article explores the thinking behind students' thinking. (Contains 2 endnotes.)

This publication shares current thinking, research, and practice in the area of higher order thinking skills with home economics educators, including teachers, supervisors, and teacher educators. The first three articles provide general discussions of thinking skills. They are "Introduction" (Ruth Pestle); "Can Higher Order Thinking…

The article offers suggestions for helping gifted elementary students learn to use independent thinking skills to challenge their own thinking as well as to solve mathematical problems. (DB)

Among ways suggested for teaching problem solving strategies are to select problem situations appropriate to the learner and to encourage learning from errors. A problem solving process which can be used with young children includes the components of formulation; interpretation; generation; decision making; implementation; evaluation; and…

This book details the findings from a research team that used cognitive principles and a large range of experiments to devise a variety of instructional designs. Their recommendations are based on 20 years of objective, published research. Although the program focused on technical subjects, the findings can easily be applied to a range of…

Metacognition is described and suggestions for teachers about developing and improving metacognitive skills in performing mathematical tasks are given. (MNS)