We talk about our spatial thinking skills all the time, maybe without knowing that there is an entire domain of cognitive skills that connect these observations. Educators can also recognize these skills in our students. These include students who seem to have an intuitive understanding of computer-aided design and create complex and efficient 3-D…

We talk about our spatial thinking skills all the time, maybe without knowing that there is an entire domain of cognitive skills that connect these observations. Educators can also recognize these skills in our students. These include students who seem to have an intuitive understanding of computer-aided design and create complex and efficient 3-D…

Decades of research point to the value and importance of spatial skills and have demonstrated the malleability, durability, and teachability of spatial skills across the lifespan. Teachers and caregivers can apply this research in their classrooms or homes through a wide range of strategies. In this article, we offer specific, engaging activities…

Decades of research point to the value and importance of spatial skills and have demonstrated the malleability, durability, and teachability of spatial skills across the lifespan. Teachers and caregivers can apply this research in their classrooms or homes through a wide range of strategies. In this article, we offer specific, engaging activities…

Talent development addresses important components and stages of domain trajectories from childhood through adulthood, with the goal of providing opportunities for achieving creative productivity for those with abilities and aspirations to pursue that goal. The talent development megamodel (TDMM) identifies the interaction of domain specific…

Spatial thinking permeates much of our lives and is an asset when solving problems involving well-structured visual information or imagining solutions in physical or digital space. However, an estimated three million US school children have spatial talents that go unrecognized because of the tools commonly used for identification of academic…

Spatial thinking permeates much of our lives and is an asset when solving problems involving well-structured visual information or imagining solutions in physical or digital space. However, an estimated three million US school children have spatial talents that go unrecognized because of the tools commonly used for identification of academic…

Creativity, giftedness, and leadership are complex, important phenomena, especially in the threatening turbulence of 21st-century conditions; consequently, there is an increasing need to understand how to strengthen them. We can learn much about these phenomena from within the borders of specialized disciplines; however, they are too complex and…

Developing students' strengths while teaching the content required by national and state standards in science, technology, engineering, and mathematics (STEM) is challenging for classroom teachers. In the Cultivating Diverse Talent in STEM (CDTIS) project, the assessment results found in strength-based reports gave teachers the tools needed to…

In schools today, tests and curricula are primarily suited to the types of students who excel in mathematics and verbal reasoning. The missing factor in testing and education policy is the measurement, selection, and talent development of students with strengths in spatial reasoning. Spatial reasoning is defined as "the ability to generate,…

The United States is dependent on innovations in science, technology, engineering, and math (STEM) fields for the growth of its economy and improvements to quality of life, but too few students are prepared for them. To help meet the challenges in filling the STEM pipeline, teachers of gifted elementary students can nurture important talents,…

Gifted students with spatial strengths have areas of remarkable talent but are often overlooked, underidentified, and underserved in American schools. Their preference for learning through imagistic reasoning conflicts with traditional verbal instructional techniques typically used in schools. To better serve these students who have the potential…

Spatial and creative abilities are important for innovations in science, technology, engineering, and math (STEM) fields, but talents are rarely developed from these abilities by schools, including among gifted children and adolescents who have a high potential to become STEM innovators. This article provides an overview of each ability and makes…

Data of item responses to the Impossible Figures Task (IFT) from 492 Chinese primary, secondary, and university students were analyzed using the dichotomous Rasch measurement model. Item difficulty estimates and person ability estimates located on the same logit scale revealed that the pooled sample of Chinese students, who were relatively highly…

The two articles in this newsletter issue focus on and discuss the multiple intelligences (MI) theory and its application in schools. Developed by Howard Gardner at Harvard University, the theory argues that individuals differ in their abilities, learning styles, and interests, and that these differences need to be acknowledged and nurtured in…