Title: Ordinary Differential Equations Everything is ordinary about them
1Ordinary Differential EquationsEverything is
ordinary about them
2Popping tags means
- Popping bubble wrap
- Using firecrackers
- Changing tags of regular items in a store with
tags from clearance items - Taking illicit drugs
3Physical Examples
4How long will it take to cool the trunnion?
5END
6What did I learn in the ODE class?
7In the differential equation
the variable x is the variable
- Independent
- Dependent
8In the differential equation
the variable y is the variable
- Independent
- Dependent
9Ordinary differential equations can have these
many dependent variables.
- one
- two
- any positive integer
10Ordinary differential equations can have these
many independent variables.
- one
- two
- any positive integer
11A differential equation is considered to be
ordinary if it has
- one dependent variable
- more than one dependent variable
- one independent variable
- more than one independent variable
12Classify the differential equation
- linear
- nonlinear
- undeterminable to be linear or nonlinear
13Classify the differential equation
- linear
- nonlinear
- linear with fixed constants
- undeterminable to be linear or nonlinear
14Classify the differential equation
- linear
- nonlinear
- linear with fixed constants
- undeterminable to be linear or nonlinear
15The velocity of a body is given by
Then the distance covered by the body from t0 to
t10 can be calculated by solving the
differential equation for x(10) for
- .
-
-
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16The form of the exact solution to
is
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-
17END
18Eulers Method
19Eulers method of solving ordinary differential
equations
states
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-
-
-
20To solve the ordinary differential equation
by Eulers method, you need to rewrite the
equation as
- .
-
-
-
21The order of accuracy for a single step in
Eulers method is
- O(h)
- O(h2)
- O(h3)
- O(h4)
22The order of accuracy from initial point to final
point while using more than one step in Eulers
method is
- O(h)
- O(h2)
- O(h3)
- O(h4)
23END
24Do you know how Runge- Kutta 4th Order Method
works?
- Yes
- No
- Maybe
- I take the 5th
25RUNGE-KUTTA 4TH ORDER METHOD
26Runge-Kutta 4th Order Method
27END
28Physical Examples
29Ordinary Differential Equations
- Problem
- The trunnion initially at room temperature is put
in a bath of dry-ice/alcohol. How long do I need
to keep it in the bath to get maximum contraction
(within reason)?
30Assumptions
- The trunnion is a lumped mass system.
- What does a lumped system mean? It implies that
the internal conduction in the trunnion is large
enough that the temperature throughout the ball
is uniform. - This allows us to make the assumption that the
temperature is only a function of time and not of
the location in the trunnion.
31Energy Conservation
- Heat In Heat Lost Heat Stored
32Heat Lost
Rate of heat lost due to convection
hA(T-Ta) h convection coefficient (W/(m2.K))
A surface area, m2 T temp of trunnion
at a given time, K
33Heat Stored
Heat stored by mass mCT where m mass of
ball, kg C specific heat of the ball, J/(kg-K)
34Energy Conservation
Rate at which heat is gained Rate at which
heat is lost Rate at which heat is stored 0-
hA(T-Ta) d/dt(mCT) 0- hA(T-Ta) m C dT/dt
35Putting in The Numbers
Length of cylinder 0.625 m Radius of
cylinder 0.3 m Density of cylinder material ?
7800 kg/m3 Specific heat, C 450
J/(kg-C) Convection coefficient, h 90
W/(m2-C) Initial temperature of the trunnion,
T(0) 27oC Temperature of dry-ice/alcohol, Ta
-78oC
36The Differential Equation
Surface area of the trunnion A 2?rL2?r2
2?0.30.6252?0.32
1.744 m2 Mass of the
trunnion M ? V ? (?r2L)
(7800)?(0.3)20.625
1378 kg
37The Differential Equation
38Solution
Time Temp (s)
(oC) 0 27 1000
0.42 2000 -19.42 3000
-34.25 4000 -45.32
5000 -53.59 6000 -59.77
7000 -64.38 8000 -67.83
9000 -70.40 10000
-72.32
39END
40If assigned HW every class for a grade, you
predict that you would get a
- better overall grade
- same overall grade (would not make a difference)
- lower overall grade
41If I had given you a choice of taking the class
online or in-class, and class attendance was not
mandatory for in-class section, what would have
been your choice? (you would have the same graded
assignments and had to come to campus to take the
tests for either section)
- In-class
- Online
42If I had given you a choice of taking the class
online or in-class but required 80 attendance
for in-class section, what would have been your
choice? (you would have the same graded
assignments and had to come to campus to take the
tests for either section)
- In-class
- Online
43How likely are you to watch the YouTube videos
for the topics that were presented in the class
you missed?
- Certainly
- Likely
- Not likely
- Not at all
44How likely are you to watch the YouTube videos
for the topics that were presented in the class
you attended?
- Certainly
- Likely
- Not likely
- Not at all
45If based on your background such as learning
patterns, GPA, etc, you were recommended to
register for the online section or in-class
section, how likely are you going to accept the
recommendation?
- Certainly
- Likely
- Not likely
- Not at all
46Given
The value of
at y(4) using finite difference method and a
step size of h4 can be approximated by
- .
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