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Students will explore diversity in the STEM community and discuss how future textbooks might highlight the scientific contributions of the women who won the 2020 Nobel Prize in chemistry. Students also will research and present on the achievements of women in STEM throughout history.

Students will research the conditions necessary for the formation of organic molecules and living things. Working in groups, students will then develop a “recipe” for life based on physical, chemical, geological, astronomical and biological principles. Class discussions will cover the role of interdisciplinary research in studying the origins of life on Earth and searching for life beyond our solar system.

Students will study types of bias in scientific research and in applications of science and engineering, and will identify the effects of bias on research conclusions and on society. Then, students will discuss how biases can be eliminated — or at least recognized and addressed — and develop bias prevention guidelines of their own.

Students will research exoplanets and their properties and detection methods. Then students will use fictitious data to create a light curve of a transiting exoplanet and to calculate the exoplanet’s motion through its solar system.

Students will learn about the ecological niche concept, conduct online surveys of vascular plants found in a biodiverse region of South Africa, conduct field surveys of vascular plants found in a local ecosystem and present a poster describing the ecological niche for a vascular plant of their choice.

Students will develop a design for an exploratory Mars mission to gather and study data about one aspect of Mars. The ultimate goal of the mission will be to gather data to help plan for a future human-crewed mission to Mars.

Students will analyze visual displays of data about clusters of coronavirus cases and work in groups to develop their own visual model of virus spread. Then, students will discuss how the way data are displayed affect data interpretation, and how the displays might inform public health decisions.

When it comes to fighting global warming, it’s hard to know where to start. How can individuals make meaningful contributions to this effort? This activity, designed for in-class or at-home learning, encourages students to find ways they can reduce their own carbon footprints, as well as help others work toward the same goal.

This activity asks students to practice two literacy skills: note-taking and summarizing. Note-taking helps students identify and remember important information, enhancing comprehension as they read. Creating a visual summary encourages students to consolidate and communicate key information.

Science isn’t done just in a laboratory. Observing phenomena and collecting data in the real world are key parts of the scientific effort. This activity, designed for at-home learning, encourages students to collect and analyze data in their own homes to develop a research question for future exploration.

Rocks found across the world offer clues to geological processes, as well as the history of Earth and the rest of the solar system. In this activity, students will review types of rocks and the rock cycle and will apply that knowledge to interpret data on two rock samples.

Students will imagine that they are officers at the World Health Organization and will work in groups to develop action plans to prevent the spread of a new virus, such as coronavirus.