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I'll go beyond what Joe and Ludwik have said and that Jack 'suggests'. Most
of our students cannot reason 'algebraically'. Here they can't (at least
don't) reason that since the kinetic energy is proportional to the mass and
the gravitational potential energy is proportional to the mass, then the
actual mass is not needed to compare the two energies for a particular
object.
I can provide the equation--say that for centripetal acceleration or for the
Gravitational force and ask how the acceleration or the force changes if we
double the distance (or radius). To MANY, MANY students, this is like
asking them to translate Aristotle from the original Greek.
Can we, should we, be teaching basic Algebra in our physics course? Or
maybe it's not the Algebra, just a lack of critical thinking skills. ??
Rick
*********************************************************
Richard W. Tarara
Professor of Physics
Saint Mary's College
Notre Dame, Indiana
rtarara@saintmarys.edu
********************************************************
Free Physics Educational Software (Win & Mac)
www.saintmarys.edu/~rtarara/software.html
Energy 2100--class project
www.saintmarys.edu/~rtarara/ENERGY_PROJECT/ENERGY2100.htm
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----- Original Message -----
From: "David T. Marx" <dtmarx@ILSTU.EDU>
To: <PHYS-L@lists.nau.edu>
Sent: Thursday, October 09, 2003 10:04 AM
Subject: Re: Setting up problems
Perhaps I can get the topic back.on work and energy.
I just came from my class and had a discussion with the class after a quiz
grown accustomed to doing.
Students commonly state, "I know the concepts. I have them memorized."
They also are demanding the kind of "plug and chug" problems they have
travels to the bottom of the
One example problem from the quiz:
_____________________
A roller coaster starts from rest at the top of an 18-m hill. The car
hill and continues up the next hill that is 10.0-m high. (a diagram ofthe situation is given with
the problem) How fast is the car moving at the top of the 10.0-m hill, iffriction is ignored?
______________________is at each location.
Students can tell me, if I give them the mass, what the potential energy
The fact that the mass isn't given really makes them crazy. They do noteven know how to start the
problem without it. During the quiz I told them that the mass isn'tneeded and that they should
proceed by considering what exactly is going on and write down theappropriate equations.
examples on potential energy
In class I did a few examples for conservation of energy after a few
and kinetic energy separately. In talking about conservation of energy, Iused the example of the
bob sled sliding down a hill. At numerous points on the hill, I wrotedown the kinetic and
potential energies of the car and showed that the total is constant."being able to calculate
Students describe their difficulty as "understanding the definitions,"
quantities," but not being "able to apply the concepts" to solving aproblem.
to
I don't understand how this fits into the preceding dialogue. It seems
beentake the phrase "rlated equations" out of the context in which it had
used.
Regards,
Jack
On Wed, 8 Oct 2003, Bernard Cleyet wrote:
"I think, Bob, what people were responding to is the part about
'have them look at the related equations'".
OK here's related equations:
The generalized solution for numerical modeling of two dimensional
orbits is:
Q(i) = AX(i)(x^2 + y^2)^B where to model the earth: