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Variation, Heredity, and Evolution; Exploring with Wisconsin
Fast Plants
 Lesson
at a Glance:
Curriculum:
Exploring with Wisconsin Fast Plants, Kendall/Hunt Publishing Company
Grade: Sixth
Topic: Variation, Heredity, and Evolution
Kathleen, like Sally
Florkiewicz in Program Four,
worked with Fast Plants; however, where Sally used them to illustrate
the plant life cycle to her third graders, Kathleen used them to
demonstrate variation among plant populations to her sixth graders.
Kathleen explained that most of the setup for the
lesson took place early in the year when she was showing her students
how to do a
controlled experiment. In that activity, she had each of her students
care for six Fast Plants: two served as the controls, two had low
doses of salt in their water, and the final two had high doses
of salt in their water. Her students watered the plants using graduated
cylinders and measured and recorded the height, number of leaves,
and number of flowers on each of the plants for a period of several
weeks. “What was really interesting was they weren’t
sure whether salt was doing anything because some kids’ high-salt
plants were the tallest of their six,” Kathleen commented.
For the activity taped for Session 5, Kathleen’s
students measured the heights of a group of plants they had been
growing.
They recorded the height of each plant on a magnet, and posted
the magnets on a graph at the front of the board. In total, the
class measured the heights of 166 plants, and, after graphing them,
they calculated the average and range heights of the population.
The graph illustrated the wide variability in the population, and
Kathleen asked her students to speculate on the cause of it: Was
the range due to environmental or genetic causes? The class then
considered the potential advantages and disadvantages of being
a short or tall plant in the population, before discussing ways
that the height of the population could change in future generations.
Kathleen’s
students then calculated the average for just three plants, and
then ten and twenty plants, to illustrate how
misleading the data could be if the sample was too small. “We’d
like to see at what point does the average reflect what we think
is the true average,” explained Kathleen.
The goal was for her students to realize that they need to consider
sample size as part of the scientific method. “In elementary
school, when you’re trying to teach the general idea of an
experiment, you must start off very simply,” said Kathleen, “but
at some point, kids need to understand the importance of sample
size.”
Kathleen added that an understanding of the scientific
method in general, and of sample size in particular, encourages
a healthy
degree of skepticism in students about things they read in newspapers,
claims for ads, etcetera – “If they don’t see
that there’s a lot of good scientific method there, they
will know not to take it for fact.”
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