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Transcript of L01_tintroduction
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5/30/2013 http://numericalmethods.eng.usf.edu 1
Introduction to Scientific
Computing
http://numericalmethods.eng.usf.edu
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Steps in Solving an
Engineering Problem
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How do we solve an engineering
problem?
Problem Description
Mathematical Model
Solution of Mathematical Model
Using the Solution
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Example of Solving an
Engineering Problem
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Bascule Bridge THG
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Trunnion
Hub
Girder
Bascule Bridge THG
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Trunnion-Hub-Girder
Assembly Procedure
Step1. Trunnion immersed in dry-ice/alcohol
Step2. Trunnion warm-up in hub
Step3. Trunnion-Hub immersed in
dry-ice/alcohol
Step4. Trunnion-Hub warm-up into girder
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Problem
After Cooling, the Trunnion Got Stuck
in Hub
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Why did it get stuck?
Magnitude of contraction needed in the trunnion was 0.015” or more. Did it contract enough?
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Consultant calculations
TDD
FT o18880108
Finin o//1047.6 6
0.01504"
)188)(1047.6)(363.12( 6
D
"363.12D
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Is the formula used correct?
TDD
T(oF) α (μin/in/oF)
-340 2.45
-300 3.07
-220 4.08
-160 4.72
-80 5.43
0 6.00
40 6.24
80 6.47
TDD
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The Correct Model Would Account for
Varying Thermal Expansion Coefficient
dTTDDc
a
T
T
)(
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Can You Roughly Estimate the
Contraction?
dTTDDc
a
T
T
)(
Ta=80oF; Tc=-108oF; D=12.363” dTTDDc
a
T
T
)(
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Can You Find a Better Estimate for
the Contraction?
dTTDDc
a
T
T
)(
Ta = 80oF
Tc = -108oF
D = 12.363"
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Estimating Contraction
Accurately
dTTDDc
a
T
T
)(
Change in diameter (D) by cooling it in dry ice/alcohol is given by
0150.6101946.6102278.1 325 TT
Ta = 80oF
Tc = -108oF
D = 12.363"
"0137.0D
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So what is the solution to the
problem?
One solution is to immerse the trunnion in liquid nitrogen
which has a boiling point of -321oF as opposed to the
dry-ice/alcohol temperature of -108oF.
"0244.0D
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Revisiting steps to solve a problem
1) Problem Statement: Trunnion got stuck in the hub.
2) Modeling: Developed a new model
3) Solution: 1) Used trapezoidal rule OR b) Used regression and integration.
4) Implementation: Cool the trunnion in liquid nitrogen.
dTTDDc
a
T
T
)(
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THE END
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Introduction to Numerical Methods
Mathematical Procedures
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Mathematical Procedures • Nonlinear Equations
• Differentiation
• Simultaneous Linear Equations
• Curve Fitting
– Interpolation
– Regression
• Integration
• Ordinary Differential Equations
• Other Advanced Mathematical Procedures:
– Partial Differential Equations
– Optimization
– Fast Fourier Transforms
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Nonlinear Equations How much of the floating ball is under water?
010993.3165.0 423 xx
Diameter=0.11m
Specific Gravity=0.6
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Nonlinear Equations How much of the floating ball is under the water?
010993.3165.0)( 423 xxxf
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Differentiation
What is the acceleration at t=7 seconds?
dt
dva
t.t
v(t) 8950001016
1016ln2200
4
4
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Differentiation
Time (s) 5 8 12
Vel (m/s) 106 177 600
What is the acceleration at t=7 seconds?
dt
dva
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Simultaneous Linear Equations Find the velocity profile, given
,)( 2 cbtattv
Three simultaneous linear equations
106525 cba
125 t
177864 cba
60012144 cba
Time (s) 5 8 12
Vel (m/s) 106 177 600
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Interpolation What is the velocity of the rocket at t=7 seconds?
Time (s) 5 8 12
Vel (m/s) 106 177 600
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Regression Thermal expansion coefficient data for cast steel
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Regression (cont)
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Integration
fluid
room
T
T
dTDD
Finding the diametric contraction in a steel shaft when dipped in liquid nitrogen.
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Ordinary Differential
Equations How long does it take a trunnion to cool down?
),( ahAdt
dmc
room )0(
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Additional Resources
For all resources on this topic such as digital audiovisual
lectures, primers, textbook chapters, multiple-choice tests,
worksheets in MATLAB, MATHEMATICA, MathCad and
MAPLE, blogs, related physical problems, please visit
http://numericalmethods.eng.usf.edu/topics/introduction_nu
merical.html