TEACHER BACKGROUNDLarge bodies of w

TEACHER BACKGROUND
Large bodies of water can absorb (or release) a great deal of heat without changing temperature
very much; their temperature stays relatively constant from day to night and from season to
season. The specific heat capacity of water allows the Earth to be inhabitable by humans since it
maintains our regular climate. Some materials have a low heat capacity such as metal, sand, and
even skin which allow the temperature to increase and decrease very quickly.
The waves of radiant energy leave their source, the lamp (or the surface of the sun), and travel
through space at 186,000 miles per second to the surface of the object. As radiant energy is
absorbed by a material(like your hand or the sand at the beach), it forces the molecules in the
material to move faster; thus creating heat energy and warming that material.
ENGAGE STUDENTS
Have you even been to the beach on a hot day? What does the sand feel like? What about the
ocean? Does the water feel hot? Even on the hottest day, the ocean temperature stays about the
same. What about when we get in the car on a hot day. What does the seatbelt feel like? What
about the belt buckle?
Have a volunteer come up to the front of the room and place their hand a few inches from a light
bulb. Be sure the student doesn’t place his hand on the bulb. What do you feel? Heat is radiating
from the bulb, through the air, onto the student’s skin. Explain that as the radiant energy is absorbed
by different materials (like your hand, the chair)it heats at different rates. Different materials heat
up or cool down differently. What kind of materials make up the earth? Do these heat up differently?
PURPOSE
Students will set up a simple experimentto answer questions about how different surfaces on earth
retain heat. Students practice taking measurementswith a thermometer and test the heat capacity of
water/salt water versus soil/sand.
GUIDED PRACTICE
Once students are comfortable using thermometers, encourage them to design an experiment that
will test the different heat retentions of soil, sand, and water. NOTE: have half the groups test tap
water. Have the other half test salt water. If needed, guide them towards the following experiment
design:
1. Fill five cups, one with water or salt water, one with wet sand (just enough to be saturated), one
with wet soil (just enough to be saturated), one with dry sand, one with dry soil.
2. Stand one thermometer in each of the 5 cups. Place a thermometer in each cup, so that the bulb
is one inch below the surface of the water/soil/sand. (Mark the back of the thermometer with a
Sharpie at 1” above the bulb and insert up to that mark.)
3. Read and record the temperatures of each cup at room temperature (0 mins). They may be
different because each thermometer is not exactly the same.
4. Place all cups under the lamp.
5. Read and record the temperatures of each cup’s material every 5 minutes for 20 minutes. Use
the data sheet provided.
6. Carefully move the thermometer to the very bottom of each cup to measure the temperature
and see if there is a difference between the top and bottom (relate to: the deeper the water in
the ocean, the colder….sets up “thermohaline currents”—movement and sinking of colder
water, deep currents).
7. Remove the cups from under the lamp and leave at room temperature for 10 minutes,
reading the thermometer after 5 and 10 minutes (at 25 and 30 mins from start of
experiment).
8. GRAPH the results of the 5 materials at each reading (0-30 mins).Check for understanding:
1. Where there any changes in temperature?
(The temperature of the soil/sand should fall (cool down) first, as the soil does not retain heat as
long as (or can lose heat faster than) water.)
2. What is radiant energy? Where is the source of radiant energy in this experiment?
3. If 70% of our earth is covered in water, what do we know about how fast or slow the planet can
heat up or cool down?
4. Does our planet heat up and cool down very quickly like the sand or does it retain heat and
change temperatures very slowly like the water? (The oceans are what make our planet
habitable. If earth was mostly land, we would reach high temperatures very quickly during the
day and freezing temperatures as the sun went down at night – just like other planets in our
solar system!)