Cruise Report for the R/V Sikuliaq August 25-September 18, 2017, prepared by Dr. Carin Ashjian, Chief Scientist, and the SKQ201713S Science Team for the time PolarTREC teacher Lisa Seff was aboard and working on Upwelling and Ecology in the Beaufort Sea.
Article written for the East Hampton Star Newspaper on September 7, 2017, featuring teacher Lisa Seff aboard the R/V Sikuliaq in the Beaufort Sea studying Upwelling and Ecology in the Bering Sea.
Article run in the East Hampton Star Newspaper on February 16, 2017, about teacher Lisa Seff's participation in the expedition "Upwelling and Ecology in the Bering Sea" aboard the R/V Sikuliaq in the Beaufort Sea.
Ice is a medium that nearly everyone is familiar with. We put it in drinks, skate on it for hockey and scrape it off our windshields in winter. Ice can be turned into sculptures and can even make for some fantastic winter scenery. Ice can also turn into a kaleidoscope of color and patterns under the right circumstances. Science
Students will find an expedition within the PolarTREC archives and use the research to make a video explaining why studying polar science is important.
Overview
PolarTREC supports teachers on expeditions with real scientists to study in the field. Studying in the Arctic and Antarctic environments can be a harsh and rewarding experience. I participated in Operation IceBridge, an aerial study
This lesson is intended to help students make connections to polar science while discovering how and why sea ice drives deep ocean currents. Students will also learn key terminology related to sea ice and using actual salinity content charts, will graph a typical sea ice core’s salinity as it relates to depth.
There is a plausible explanation for how carbon dioxide molecules could interact with water molecules thereby forming a solution where the carbon dioxide is the solute and water is the solvent (as it usually is). The weak inter-molecular attractive forces rely on the polarity of the water molecule and the high density of electrons at either end of the
When a bottle or can of carbonated beverage is opened the carbon dioxide is allowed gas to come out of solution. This is because there is a pressure differential between the carbon dioxide in the liquid and carbon dioxide in the air. The pressure in the liquid is higher than the pressure in the air so the carbon dioxide moves