This manual was developed to help K-3 teachers incorporate science and science activities as an integral part of their curricula. It integrates hands-on science activities with other curricular areas, particularly the language arts. The activities include science background information, science process skills, classroom management suggestions,…

This curriculum and classroom activity guide considers evidence gathered in answer to questions concerning global environmental change. It describes methods that biologists, chemists, geologists, meteorologists, and physicists use to gather and interpret their findings. The activities and approaches in this guide were developed to meet the skill…

This book is designed to help advanced elementary students learn science skills while actively engaged in cooperative activities based on the earth sciences and natural disasters. The first section explains how to make cooperative learning a part of the curriculum and includes an overview, instructions and activities to bring cooperative learning…

Simple machines have become a lost point of study in elementary schools as teachers continue to have more material to cover. This manual provides hands-on, cooperative learning activities for grades three through eight concerning the six simple machines: wheel and axle, inclined plane, screw, pulley, wedge, and lever. Most activities can be…

This book contains 78 activities that can be used to assess student progress in the development of science process skills. Inexpensive and flexible hands-on activities can be used with individuals, small groups, or an entire class to assess student progress either throughout the year, after a specific unit of instruction, or as a year-end…

Inquiry has been one of the most prominent reforms in science education. One of the goals of teaching through inquiry methods is to enable students to have experiences that are authentic to scientists' experiences. Too often, inquiry science is taught as either the "scientific method" or as "hands-on," disconnected activities…

This teacher guide presents a unit on plate tectonics and introduces hands-on activities for students in grades 6-8. In each unit, students act as real scientists and gather evidence by using science process skills such as observing, graphing, analyzing data, designing and making models, visualizing, communicating, theorizing, and drawing…

In this activity, students look at different types of fabric and their respective individual properties. Using a magnifying glass and sandpaper, students test the weave and wear quality of sample fabrics. By comparing the qualities of different fabrics, they are able to better understand why there are so many different types of fabric and…

Parents can help students learn science in a variety of ways. Taking advantage of children's natural curiosity, parents can take short walks with their child to notice interesting things in the environment. Parents can also help students perform science experiments at home that are related to school science experiments. In addition, parents can…

Describes a guided inquiry activity that addresses the law of reflection. Laboratory experiment is included. (DKM)

Presents estimation as a tool for learning observation and measurement relationships for the metric system. Activities include constructing a meter tape and using mystery boxes to practice volume estimation and measurement. (AIM)

Part One presents empirical results of students' epistemological conceptions of laws, hypotheses, theories, and models. These results are discussed in relation to research results from different recent publications. Part Two gives an outline and analysis of a two-year program for teaching epistemology in a physics course. (AIM)

Evaluates the use of drama to assess children's knowledge of scientific concepts. Describes a case study of 7-year-olds and the study of magnetism. By taking science concepts out of the context of practical science activities, teachers could assess student knowledge without simply seeing what was expected, and students could explore ideas and…

Presents a detailed procedure for finding an empirical formula from ion exchange chromatography and colorimetry. Introduces students to more varied techniques including volumetric manipulation, titration, ion-exchange, preparation of a calibration curve, and the use of colorimetry. (JRH)

Describes an activity that focuses on the question: How hard is it to break spaghetti noodles? Students design their own experiment that involves hanging a cup of pennies from a piece of spaghetti by a paper clip and investigate how many pennies the noodle can support without breaking. (DDR)