CHEMISTRY 253

Spring, 2015 - Dixon

Group Assignment #10

Open Book – But 30 min. Time Limit

 

Group Names _________________________________________________

 

One feedback associated with climate change is where increasing temperatures melt snow or sea ice, resulting in a decreased albedo (e.g. open water is much less reflective than ice or snow covered ice).  The decreased albedo, then can result in more solar radiation used for warming the Earth.  This is particularly important in polar regions in early summer (even though the greatest ice loss occurs in late summer).  The Stephan-Boltzmann constant is 5.6 x 10^-8 W m^-2 K^-4. and 0°C = 273.15 K.

 

1.  To examine the affect of the change in albedo, a) Calculate the expected temperature (in K) on the surface of the Earth for an albedo of 0.30 and for an albedo of 0.27 in which there are no greenhouse gases and the incoming solar radiation is 1370 W m^-2.  Do this with the assumption that the average Earth’s temperature is an appropriate quantity to use and that the Earth acts as a blackbody. 

b) What is the change in temperature (including sign) associated with the decrease in albedo?

c) Is this a positive or negative feedback?

d) Explain why the calculated temperature appears too cold (both under standard and under reduced albedo changes).

 

2.  Although this feedback is in one direction, an opposite type of feedback can occur in fall.  In fall, there is little to no sun in polar regions (at the poles, the sun sets for six months on the autumnal equinox).  Thus, there can be a large difference in energy loss between energy loss from open ocean at the sea water freezing point (~ -2°C) and what is typical above ice covered ocean (~ -20°C).

a) Calculate the ratio of energy loss above open ocean and above polar ice at the two temperatures mentioned above.  Assume greenhouse gases don’t affect this calculation.

b)  Is this feedback positive or negative?