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Transcript of differential equations
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DIFFERENTIAL EQUATIONS APPLICATIONS IN SCIENCE & ENGINEERING
Y.SARATH BABU A.SHAMEER AHMED
PRESENTED BY:
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Contents
DefinationTypesProperties andApplications
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DIFFERENTIAL EQUATIONS APPLICATIONS IN SCIENCE & ENGINEERING
Definition
These are the equations obtained eliminating of arbitrary constants from f(x,y,z,a,b)=0 equation in which a,b are constants.
A differential equation is an equation involving derivatives of an unknown function and possibly the function itself as well as the independent variable.
OR
Example
4 2 2 3sin , ' 2 0, 0y x y y xy x y y x 1st order equations 2nd order equation
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Differential equations was
invented by LEIBNITZ
It was developed by JOHANN BERNOULLI
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ORDER OF DIFFERENTIAL EQUATION The order of the differential equation is
order of the highest derivative in the differential equation.
Differential Equation ORDER
32 xdx
dy
0932
2
ydx
dy
dx
yd
364
3
3
ydx
dy
dx
yd
1
2
3
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DEGREE OF DIFFERENTIAL EQUATION
Differential Equation Degree
032
2
aydx
dy
dx
yd
364
3
3
ydx
dy
dx
yd
0353
2
2
dx
dy
dx
yd
1
1
3
The degree of a differential equation is power of the highest order derivative term in the differential equation.
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Derivatives These Are Two Types
1. An ordinary differential equations
2. A partial differential equations
032
2
aydx
dy
dx
yd
32 xdx
dy
02
2
2
2
y
u
x
u
04
4
4
4
t
u
x
u
1
1
2
2
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APPLICATIONS
Newton’s law of cooling
sTTdt
dT
Ex: A murder victim is discovered and a lieutenant was to estimate the time of death. The body is loacted in a room that body kept at a constant
temperture of 68◦F . The lieutenant arrived at 9.30P.M and measured the body temperture as 94.4◦F at that time. Another measurement of
the body temperture at 11P.M is 89.2◦F
Ans : time of death 53.8 minutes
Rate Of Decay Of Radioactive Materials
y is the quantity present at any time(t)
dy
ydt
─
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Newton's Second Law In Dynamics
Law of natural growth or decay
N(t) is amount of substance at ‘t’
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In Schrodinger
Wave Equation
The Schrodinger equation is the name of the basic non-relativistic wave equation used in one version of quantum mechanics to describe the behaviour of a particle in a field of force. There is the time dependant equation used for describing progressive waves, applicable to the motion of free particles. And the time independent form of this equation used for describing standing waves.
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In Laplace transforms
RL circuit
L di/dt + Ri = E
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Heat Equation In Thermo Dynamics
Example:
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10
PHYSICAL ORIGIN1. Free falling stone g
dt
sd
2
2
2. Spring vertical displacement ky
dt
ydm
2
2
where y is displacement, m is mass and
k is spring constant
a=-g
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JacobianProperties•If the Jacobian(J) value is zero then the given two relations are dependent.•If the Jacobian(J) value is not zero then the given two relations are independent.
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