This mini exhibit explores the science behind climate change and introduces current climate change research to the public. Panels cover the topics of changing climate, ocean acidification and sea level rise, giving examples of how data is collected and current research in these fields. The exhibit also provides websites for further exploring climate change impacts.
The attached Polar Oceans flyer, produced by the International Polar Year (IPY) Programme Office, provides summary information about the Polar Oceans and describes how the circulation in polar waters exerts a powerful control on the Earth's climate and carbon cycle. Activities attached to the flyer demonstrate the interconnectedness of marine life in the oceans and how the Polar Regions affect
The attached Lands and Life flyer, produced by the International Polar Year (IPY) Programme Office, includes a summary of terrestrial polar ecosystems, from southern cold maritime islands to dry continental deserts in Antarctica and from tree line across the continental tundra to remote northern islands in the Arctic. An attached activity allows students to build a small scale model of
The attached Ice Sheets flyer, produced by the International Polar Year (IPY) Programme Office, includes a summary of information about ice sheets in both the Arctic and Antarctica, followed by an activity which allows students to make their own realistic model of an ice sheet with commonly available materials.
The attached Changing Earth flyer, produced by the International Polar Year (IPY) Programme Office, includes a summary of the history of planet Earth and an activity involving the use of a rope as a timeline to represents the Earth’s history from the present to 65 million years ago.
This activity is a way to create a cloud chamber in the classroom. A cloud chamber allows students to view "invisible" alpha particles emitted through nuclear decay. Alpha particles have a long history in nuclear physics--they are a helium nucleus and their emission during nuclear decay was one of the first ways we knew that atomic nuclei could