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 Page 1


Introduction
? A differential equation is an equation which contains 
the derivatives of a variable, such as the equation
?? ?? 2
?? ????
2
+ ?? ????
????
+ ???? = ?? Here x is the variable and a, b, c and d are constants. 
Page 2


Introduction
? A differential equation is an equation which contains 
the derivatives of a variable, such as the equation
?? ?? 2
?? ????
2
+ ?? ????
????
+ ???? = ?? Here x is the variable and a, b, c and d are constants. 
Types of Differential Equations
? Homogeneous DE
? Non Homogeneous DE
0 ) ( ) ( ) ( ) (
0 1
1
1
1
? ? ? ? ?
?
?
?
y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
?
) ( ) ( ) ( ) ( ) (
0 1
1
1
1
x g y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
? ? ? ? ?
?
?
?
?
Page 3


Introduction
? A differential equation is an equation which contains 
the derivatives of a variable, such as the equation
?? ?? 2
?? ????
2
+ ?? ????
????
+ ???? = ?? Here x is the variable and a, b, c and d are constants. 
Types of Differential Equations
? Homogeneous DE
? Non Homogeneous DE
0 ) ( ) ( ) ( ) (
0 1
1
1
1
? ? ? ? ?
?
?
?
y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
?
) ( ) ( ) ( ) ( ) (
0 1
1
1
1
x g y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
? ? ? ? ?
?
?
?
?
Second Order Homogeneous DE
? A linear second order homogeneous differential 
equation involves terms up to the second derivative 
of a function. For the case of constant multipliers, 
The equation is of the form
? and can be solved by the substitution
Page 4


Introduction
? A differential equation is an equation which contains 
the derivatives of a variable, such as the equation
?? ?? 2
?? ????
2
+ ?? ????
????
+ ???? = ?? Here x is the variable and a, b, c and d are constants. 
Types of Differential Equations
? Homogeneous DE
? Non Homogeneous DE
0 ) ( ) ( ) ( ) (
0 1
1
1
1
? ? ? ? ?
?
?
?
y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
?
) ( ) ( ) ( ) ( ) (
0 1
1
1
1
x g y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
? ? ? ? ?
?
?
?
?
Second Order Homogeneous DE
? A linear second order homogeneous differential 
equation involves terms up to the second derivative 
of a function. For the case of constant multipliers, 
The equation is of the form
? and can be solved by the substitution
Solution
The solution which fits a specific physical situation is 
obtained by substituting the solution into the equation and 
evaluating the various constants by forcing the solution to 
fit the physical boundary conditions of the problem at 
hand. Substituting gives
which leads to a variety of solutions, depending on the 
values of a and b. In physical problems, the boundary 
conditions determine the values of a and b, and the 
solution to the quadratic equation for ? reveals the nature 
of the solution. 
Page 5


Introduction
? A differential equation is an equation which contains 
the derivatives of a variable, such as the equation
?? ?? 2
?? ????
2
+ ?? ????
????
+ ???? = ?? Here x is the variable and a, b, c and d are constants. 
Types of Differential Equations
? Homogeneous DE
? Non Homogeneous DE
0 ) ( ) ( ) ( ) (
0 1
1
1
1
? ? ? ? ?
?
?
?
y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
?
) ( ) ( ) ( ) ( ) (
0 1
1
1
1
x g y x a
dx
dy
x a
dx
y d
x a
dx
y d
x a
n
n
n
n
n
n
? ? ? ? ?
?
?
?
?
Second Order Homogeneous DE
? A linear second order homogeneous differential 
equation involves terms up to the second derivative 
of a function. For the case of constant multipliers, 
The equation is of the form
? and can be solved by the substitution
Solution
The solution which fits a specific physical situation is 
obtained by substituting the solution into the equation and 
evaluating the various constants by forcing the solution to 
fit the physical boundary conditions of the problem at 
hand. Substituting gives
which leads to a variety of solutions, depending on the 
values of a and b. In physical problems, the boundary 
conditions determine the values of a and b, and the 
solution to the quadratic equation for ? reveals the nature 
of the solution. 
Case I: Two real roots
? For values of a and b such that
• there are two real roots m
1
and m
2
which lead to a general 
solution of the form
2
1
12
()
n
m x m x
mx
n
y x ce c e c e ? ? ? ? K
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FAQs on PPT: Higher Order Linear Differential Equations with Constant Coefficients - Engineering Mathematics - Civil Engineering (CE)

1. What are higher order linear differential equations with constant coefficients?
Ans. Higher order linear differential equations with constant coefficients are differential equations in which the highest derivative has a constant coefficient. These equations can be written in the form: a_n * d^n y/dx^n + a_(n-1) * d^(n-1) y/dx^(n-1) + ... + a_1 * dy/dx + a_0 * y = 0, where a_n, a_(n-1), ..., a_1, a_0 are constants and y is the dependent variable.
2. How do you solve higher order linear differential equations with constant coefficients?
Ans. To solve higher order linear differential equations with constant coefficients, we first find the characteristic equation by substituting y = e^(rx) into the differential equation. This leads to a polynomial equation in r, which is called the characteristic equation. We then solve the characteristic equation to find the roots r_1, r_2, ..., r_n. These roots determine the form of the general solution, which is given by: y = C_1 * e^(r_1x) + C_2 * e^(r_2x) + ... + C_n * e^(r_nx), where C_1, C_2, ..., C_n are constants determined by initial or boundary conditions.
3. Can higher order linear differential equations with constant coefficients have complex roots?
Ans. Yes, higher order linear differential equations with constant coefficients can have complex roots. The characteristic equation may have complex roots of the form r = a + bi, where a and b are real numbers and i is the imaginary unit. In such cases, the general solution of the differential equation will involve complex exponential functions, which can be expressed as combinations of sine and cosine functions using Euler's formula. The constants in the general solution will also be complex.
4. How do you determine the order of a linear differential equation?
Ans. The order of a linear differential equation is determined by the highest derivative present in the equation. For example, if the equation involves only the first derivative, it is a first-order differential equation. If the equation involves the second derivative, it is a second-order differential equation, and so on. The order of the differential equation is important because it helps determine the number of initial or boundary conditions needed to obtain a unique solution. In general, an nth order linear differential equation requires n initial or boundary conditions.
5. What are constant coefficients in linear differential equations?
Ans. Constant coefficients in linear differential equations refer to the coefficients of the derivatives and the dependent variable that do not depend on the independent variable. In higher order linear differential equations with constant coefficients, these coefficients remain constant throughout the equation and are not functions of x. They are typically denoted as a_n, a_(n-1), ..., a_1, a_0. By being constant, these coefficients allow for the use of algebraic techniques to solve the differential equation.
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