Fostering spelling ability

Many teachers of primary-age children are seeking to implement the whole language concept into instructional programs by focusing on children\u27s involvement in the language processes (comprehension and composition). Smith and Goodman (1971) explain that the whole language concept is based on the nature of language and how children learn language. As children engage in the language processes, language abilities emerge. Children generate their own hypotheses about the regularity underlying language, test them, and revise these hypotheses based on the feedback they receive

Investigating STEM with Infants and Toddlers (Birth-3)

The premiere book in the STEM for Our Youngest Learners Series introduces the Infant Toddler Inquiry Learning Model, a new way to think about how young children (birth–age 3) explore, think, and learn STEM concepts. The book also demonstrates how the Inquiry Teaching Model can guide teachers in implementing STEM experiences for this age group. Accessible to educators from a wide range of educational backgrounds, this resource is designed specifically to help guide the integration of STEM experiences into the early childhood curriculum. Readers will see how the model works in real life; how STEM topics can be naturally embedded in daily routines and activities; and how to observe, understand, and interact with children as they explore. This accessible guide presents content and pedagogy aligned with what is known about how children learn and also addresses the challenges educators encounter when implementing STEM with infants and toddlers.https://scholarworks.uni.edu/facbook/1522/thumbnail.jp

Physical Science in Constructivist Early Childhood Classrooms

Teachers at the Freeburg Early Childhood Program know that experimentation with physical science is of great interest to young children, and can begin as early as the age of 3. The constructivist teachers at this experimental school at the University of Northern Iowa worked for six years to develop a center-based approach to physical science with young children. Kamii and DeVries (1993) define physical knowledge activities as those in which children experiment and figure out how things work in the physical world. In these activities, children act on objects to produce desired effects and observe the objects\u27 reactions. In this article, the authors illustrate how such activities can be implemented in the classroom to foster young children\u27s thinking and reasoning

STEM Learning with Young Children: Inquiry Teaching with Ramps and Pathways

This teacher\u27s guide provides the background information, STEM concepts, and strategies needed to successfully implement an early STEM curriculum (Ramps and Pathways) with young children, ages 3-8. R&P actively engages young children in designing and building ramp structures using wooden cove molding, releasing marbles on the structures, and observing what happens. Children use logical-mathematical thinking and problem-solving skills as they explore science concepts related to motion, force, and energy.https://dc.etsu.edu/etsu_books/1136/thumbnail.jp

STEM Learning with Young Children: Inquiry Teaching with Ramps and Pathways

This teacher\u27s guide provides the background information, STEM concepts, and strategies needed to successfully implement an early STEM curriculum (Ramps and Pathways) with young children, ages 3-8. R&P actively engages young children in designing and building ramp structures using wooden cove molding, releasing marbles on the structures, and observing what happens. Children use logical-mathematical thinking and problem-solving skills as they explore science concepts related to motion, force, and energy.https://dc.etsu.edu/etsu_books/1136/thumbnail.jp