This extensively updated teaching resource provides over 100 engaging, full-color visuals with explanations of how they can be used to stimulate mathematics learning, to explain mathematical concepts, and to assess students' mathematical understanding in grades K--8. Readers are provided with a strong mathematical background, downloadable copies…

"Teaching STEM Literacy" is comprised of ready-made, open-ended lessons reviewed and tested by teachers, which help educators integrate STEM learning into the early childhood classroom. Lessons are linked to the Next Generation Science Standards, and encourage creative ideas for three-dimensional STEM learning that are developmentally…

The purpose of this guide is to provide brief explanations of practices that can be implemented when working with students in need of intensive intervention in mathematics. Special education instructors, math interventionists, and others working with students who struggle with mathematics may find this guide helpful. Specific topics covered…

In this second installment of a two-part article, the author draws from coaching and research into children's learning in science to present a model for building pupils' scientific ideas quickly and effectively. In the first article, the author outlined how pupils' reading improves when they are more engaged in finding scientific…

Argumentation is one of the central practices in science learning and helps deepen students' conceptual understanding. Students should learn how to communicate ideas including procedure tests, data interpretations, and investigation outcomes in verbal and written forms through argument structure. This article presents a negotiation model to…

Learn the 5 practices for facilitating effective inquiry-oriented classrooms: (1) Anticipating what students will do--what strategies they will use--in solving a problem; (2) Monitoring their work as they approach the problem in class; (3) Selecting students whose strategies are worth discussing in class; (4) Sequencing those students'…

The authors suggest that simply by changing the method of questioning, a teacher can change not only the intellectual demands in the classroom, but also the range of thinking strategies that provide for understanding and competence. (KC)

Reports on the use of a rapid feedback technique designed to provide students an opportunity to monitor their understanding of the material in introductory chemistry. (DDR)

This book provides a framework to help teachers connect brain-compatible learning, multiple intelligences, and the Internet to help students learn and understand critical concepts and skills. Educators will find internet-based activities that feature interpersonal exchange, problem-solving, and information gathering and analysis, plus…

The purpose of this paper is to present classroom teachers with a succinct, practical explanation of how to teach reading comprehension. An approach to the systematic teaching of comprehension which is based on practical interpretation of current research and theory is presented. Examples are given that will assist any teacher who is responsible…

Argues that by carefully planning questioning techniques, the classroom teacher can build prereading concepts and help students make those links between their own knowledge and experience and the information contained in a text. Offers taxonomies of teacher responses and of concept development to help teachers structure classroom interaction. (FL)

Shares some strategies for encouraging students to notice their environment in the broadest sense through using the Socratic method. Focuses on specific examples with historical significance such as exploring the period of a pendulum. (DDR)

Describes an approach to science instruction that motivates students by tapping into their prior knowledge and by employing specific questioning techniques. Provides information on matching the questioning technique to the instructional goal. (DDR)

Presented are the purposes served by mathematical investigation--the exploration of open situations in a relatively unstructured way--and an example (investigating numbers adding to 13), with numerous questions and conjectures. (MNS)

The difficulties hearing impaired students experience in acquiring the conceptual information underlying narratives is discussed in terms of schemata development and the role of incidental learning. Principles for teaching concepts and labels, elaborating the schema, using questions to fill in conceptual gaps, and using imaginary play and…