Students often need to obtain, organize, clean, and analyze data in order to draw conclusions about a particular phenomenon (e.g., why tidal heights change). When conducting a science investigation in biology, chemistry, physics, or Earth science, data can be collected by the student or can be provided to them via secondary data sets. This article…

Some of the most important scientific studies are associated with either incredibly large dimensions (e.g., the universe) or extremely small proportions (e.g., the cell). While a teacher's curriculum may often switch from mega-expanses to minutia, they should question how easily students comprehend the change in sizes. This article addresses…

Although energy is fundamental to our civilization, few high school students have a clear picture of what happens when they use it. To become informed citizens and decision makers, every high school student must understand how we generate electrical energy. Working through the series of inexpensive, hands-on activities presented in this article,…

This article presents a lesson in which students examine current field research on global change. In particular, students investigate the effect of carbon dioxide and tropospheric ozone on ecosystems by applying their knowledge of scientific inquiry and photosynthesis. The goal of the activity is for students to think like ecologists and draw…

Numerous connections exist between climate science and topics normally covered in physics and physical science courses. For instance, lessons on heat and light can be used to introduce basic climate science, and the study of electric circuits provides a context for studying the relationship between electricity consumption and carbon pollution. To…

Introduces a science demonstration that illustrates the effects of pressure and gravity on humans using a marshmallow man and a vacuum pump. Demonstrates the same concept with shaving cream, balloons, and boiling water without raising temperature. (YDS)

Presents an inquiry-based science activity on pulse rate. Includes observations; developing a research question; constructing the hypothesis; designing the study; collecting, summarizing, and analyzing data; and interpretation stages in the activity. Presents information on how to use standards and benchmarks in this activity. (YDS)

Presents an activity that investigates the reflections on a mirror. Focuses on the relationship between a person's height and the mirror's height. (YDS)

In a hands-on experiment to illustrate the concept of cycles in ecology, students use the Winogradsky column to explore the operation of the sulfur cycle and the interrelatedness of organisms in an environment. Lesson plans include materials needed and class procedures. (MDH)

Introduces an inquiry-based laboratory experiment in which students identify an unknown bacterial species by using techniques such as Gram staining. Uses an authentic problem solving approach in a scenario entitled, "What poisoned the apple juice?" (YDS)

Presents a lesson plan that uses information about traditional African iron-smelting to highlight the scientific contributions of non-European cultures. Includes a laboratory activity on the reduction of metal oxides with a multicultural perspective that helps students grasp some of the chemistry concepts involved in smelting. (JRH)

Presents a lesson, Scientific Literacy Is a Lifetime Skill, that provides thought and discussion on science as an aspect of everyday life. Uses concept mapping to help students explore from their perspective the relationship between formal science education and real-world situations. (JRH)

Points out the importance of socioscientific aspects of laboratory activities for the development of understanding of different cultures' contributions to science. Describes a lesson on gene splicing using the 5E Learning Model. (YDS)

Presents three inquiry-based lessons to develop the science process skills of observation, identification, and classification. Activities use whelk eggs and snail shells as the focus of the students' inquiries. Provides a list of 19 facts about whelks and snails. (MDH)

Presents background information on the method used by Hipparchus to determine the distance between the earth and the moon. Describes student activities that employ Hipparchus's Method and Aristarchus's Method for determining the relative distance of the sun and the moon from the earth and Eratosthenes's Method for finding the circumference of the…