Lee Slick (Morgan Park)
Lee started up a rebus, actually a series of them, each being an
element: Sodium, Carbon, etc. By the way, a rebus
is a set of pictographs, symbols, and operations to represent a word or
phrase. For example
"picture of needle and thread" + D + "picture of a pack of gum" - G = SODIUM
Get it?? A terrific way to engage kids as they learn about the chemical elements.
Chris Etapa (Gunsaulus School)
Chris began by outlining a presentation to emphasize the
importance of laboratory safety. In her class she took a
raw egg and put it into a petri dish placed on the overhead
projector. Then, she added 2 drops of dilute Hydrochloric
Acid [HCl]. As the protein "denatures" it looked dark
on the screen. This graphically illustrates the need to wear
safety glasses, since our eyes contain the same types of protein as
egg proteins, with the same sensitivity to acids.
Next she presented two mini-labs, which are used to get kids into a "science fair" mode.
Pat Riley (Lincoln Park HS)
Pat asked us how we might make a reaction --- such as dissolving
sugar in water --- go faster. Suggestions included the following:
heating, stirring, breaking sugar into smaller pieces
As to the effect of breaking sugar into smaller pieces, we suggested a refinement, since the surface area was increased and the particle size was decreased. [In this sense the "particle size" refer to the size of individual sugar molecules]. Which of these effects is more important? She considered these two balls of the same size:
The Styrofoam™ ball has more surface area and should have more "sticking power". Similarly, the increase in surface area, although it does not change the size of each sugar molecule, is the key parameter for speeding the reaction rate.
Therese Donatello (St Edwards School)
Therese presented the following three exercises.
Then she pulled on the papers, the cuts making it easier for the
paper to start tearing. We investigated finding how to tear the
paper most easily; that is, was it better to pull slowly, quickly, from
the sides, from opposite ends, etc. If the tearing is uneven and
not the same for each layer, it may be because of the different
compositions of paper in the various layers. This illustrates how
movements in the earth's crust can lead to earthquakes. Very
nice, Therese!
The paper clips were made of different materials, such as metal
or plastic. We noted that the smaller clips bent more than the larger
ones, and even with clips of the same size there was variation in
bending because of the different material composition. Also, with
smaller stacks of paper the clips stretched, but rebounded when the
paper was removed. By contrast, with sufficiently large stacks of paper
the paper clips would stay deformed after the paper was removed.
Evidently, the clips had reached their elastic limit, and their
shape was irreversibly altered.
Stretch Factor | Measured Length |
1 ´ | 9.5 cm |
1.5 ´ | 9.5 cm |
2.0 ´ | 9.5 cm |
2.5 ´ | 9.5 cm |
3 ´ | 9.5 cm |
Elastic Limit | |
4 ´ | 9.7 cm |
5 ´ | 10.0 cm |
Notes taken by Ben Stark