Lab Activity: ‘Deep Thinking’ and
Parameterizing a Phenomenon: What Does it Depend on?
Goal: We want
to gain practice and experience of how to think about and break down a
phenomenon or physical situation/event as a scientist would. We will do this
using the hydraulic jump.
Why do this?
Most people are not ever formally trained to think about
things or observe things as a scientist. Part of the reason is there is no one
correct way of doing this. However, one thing scientists tend to do naturally
is, when seeing something that is interesting and perks the curiosity, not just
to be satisfied with saying it is cool, but rather begin thinking about the
parameters the phenomenon depends on.
To really know and understand how something works or
behaves the way it does, a scientific study will require observations and
measurements of controllable variables, i.e. experiments, which are determined
by the physical parameters of the problem. If we can get good at determining
the parameters, then this opens the door to a variety of possible studies and
experiments. In physics in particular, doing this also opens the door to the
development of mathematical models of the system.
Here I am using the definition of parameter = measurable factor on which the phenomenon depends. If it helps, think of it as an independent variable.
We will spend a few minutes looking at and thinking about
a simple, everyday phenomenon, which is also one that we do not fully
understand to this day: hydraulic jump.
What to do:
Not much in the way of procedures on this one. To form a
hydraulic jump, pour water on a hard, flat surface. That’s it! Then, observe, ‘play’
with it, and think about it.
What does your
team need to do?
Observe the jump and ‘play’ with the experiment in any
ways you can think of, and develop a list of as many possible parameters as you
can think of. That is, what physical quantities might affect the properties and
behaviors of the hydraulic jump?
One example that
will probably stand out immediately is the flow rate of the stream of water.
But think deeper than the obvious – what else might affect the jump? Who cares
if it ultimately turns out some more obscure parameter does or does not affect
the jump, write down anything and
everything that comes to mind, even if you are completely unsure of its
effect! There are no wrong answers to
this part of the activity! J
Team Brainstorm:
Possible Parameters (just list them! You have 10 minutes)
Class Brainstorm:
Possible parameters (anything other teams came up with, and you did not)
Now it is your turn
to try this – you knew this was coming!
In the next three days and with a partner, find a
phenomenon, event or physical situation that you are curious about. It needs to
be something that is ‘everydayish,’ like a hydraulic jump. It needs to be
something that we could do experiments on with accessible equipment, without
the aid of something like the Hubble space telescope, a cancer research
facility, or a particle detector at Fermilab or CERN.
Spend a small amount of time and play with that
phenomenon. Make your list of physical parameters that may have an effect on
the phenomenon. Be as thorough as you can, using what we just did as a class as
a model.
In addition, based on your initial ‘play’ with the
system, which parameter has the most significant effect? This may or may not be
correct, but which parameter stands out as the most important?
Have fun, and try to find something interesting, perhaps
unusual!
To turn in: A
description of your phenomenon/situation/event, your brainstorm list of
parameters, and a preliminary guess of the most prominent parameter (think
about what would you want to test first). Feel free to add photos, diagrams,
etc., to show the rest of us what you are talking about.
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