Vicki Springmann Edward Montielmath.arizona.edu/~gabitov/teaching/101/math_485... · Introduction...
Transcript of Vicki Springmann Edward Montielmath.arizona.edu/~gabitov/teaching/101/math_485... · Introduction...
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Vicki Springmann
Edward Montiel
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Advisor: Matt Pennybacker
Dr. Ildar Gabitov
Larry Hoffman, Department of Physics
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Introduction Two Models Applications
Simple Model Theory Lagrangian Stability
Experimental Data Parameters Stroboscope
Computer Modeling Runge-Kutta Simple Model Results
Error Analysis
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Moving Cart Oscillating Base
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Segway (moving cart)
Early Seismometers (moving cart)
Neck and Spine in biomechanics (oscillating)
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Oscillating Base
Treated as a point mass at its center of mass.
The Lagrangiansummarizes the dynamics of the system.
Must determine the kinetic and potential energy
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The x and y coordinates of the mass are
Differentiating with respect to time,
Kinetic Energy is
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Substituting in the velocity,
But , so
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However,
So
+ (complete derivative) + (function of only t)
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On Earth, the potential gravitational energy is
So the potential energy of the pendulum is
Or,
+ (function of only t)
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The Lagrangian is
Or,
+ (complete derivative) + (function of only t)
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The equation of motion is obtained by
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Can be separated into two oscillations:
large small (amplitude)
slow fast (frequency)
The interaction between these oscillations causes the vertical position to become stable.
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may be written as
where
therefore
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is small, but is large.
is large, but it is slow.
Balancing, we have that
And because can be treated as a constant,
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We also have
Averaging this, we get
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So we have an equation for the effective potential
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The derivative of with respect to is
From this, we see that and
are stable.
The stability condition for is
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The potential has two maxima and two minima for if the stability condition is met
Minimum at and
Maxima are between 0 and , and and
Their precise location depends on the parameters.
Find by taking the derivative and setting it equal to 0.
The potential vs. angle graph is shown after the parameters have been determined.
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g = -9.8 m/s2
a = 0.009 ± 0.0005 m
Pendulum is a trapezoidal prism
length = 28cm
top: 0.9cm x 0.9cm
bottom: 0.9cm x 0.4cm
l = 0.12m (from center of mass)
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An instrument used to make a cyclically moving object appear slow-moving or stationary.
The lamp emits brief and rapid flashes of light.
The frequency of the flash is adjusted until it is equal to the object’s frequency.
This makes it appear stationary.
Example with cpu fan: http://www.youtube.com/watch?v=_eoDVpC67Rc&feature=related
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Used to measure the frequency of fast oscillations.
When the pendulum did not appear to move vertically, frequency can be read off device.
Measurements were in units of min-1
Minimum stable frequency measured as
1970 ± 49 min-1
206 ± 5.1 rad/s
Stability range measurements at 2097 min-1
220.0 rad/s
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Necessary for inputting equation of motion into MatLab.
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Family of iterative methods to solve first order ODEs
Fourth order Runge-Kutta is the standard method
Error per step: O(h5); Total Error: O(h4)
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Given an initial value problem
The slope is the weighted average of the slopes:
At the beginning of the interval
At the midpoint of the interval
At the end of the interval
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Ω = 220.0 [rad/s] φ
t
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Theoretically, the pendulum is stable when
Experimentally, minimum frequency of stability is 206 ± 5.1 rad/s
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rad/s
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Ω = 220.0 [rad/s]
φ
u
Stable Region
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φ
du/dφ
Ω = 220.0 [rad/s]
Stable Region
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The vertical position is stable between
and according to theory.
Stability range is 0.915 radians, or 52.4° from
Experimentally, the pendulum is stable at
0.553 ± 0.0088 rad, or 31.7° ± 0.5° from
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Stroboscope
Difficult to fine tune
Resonance problem
Pendulum set up
Interference from guide
Pendulum loosely attached to base (wobbling)
Tape used to hold constant frequency loosens from the vibrations.
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The pendulum was treated as though it were a point mass at its center of mass.
This is more appropriate for a sphere at the end of a thin, rigid rod.
The distributed mass of our pendulum needs to be taken into account.
This will be the focus of our future work.
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Landau L. D. & Lifshitz E. M., Mechanics, (Pergamon, NY, 1960) pp 93-95. Motion in a rapidly oscillating field
Smith H.J.T. & Blackburn J.A., Am J Phys 60, 909 (1992). Experimental study of an inverted pendulum
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