In Maths, an integrating factor is a function used to solve differential equations. It is a function in which an ordinary differential equation can be multiplied to make the function integrable. It is usually applied to solve ordinary differential equations. Also, we can use this factor within multivariable calculus. When multiplied by an integrating factor, an inaccurate differential is made into an accurate differential (which can be later integrated to give a scalar field). It has a major application in thermodynamics where the temperature becomes the integrating factor that makes entropy an exact differential.
Differential equations play a vital role in Mathematics. These are the equations that necessarily involve derivatives. There are various types of differential equations; such as – homogeneous and non-homogeneous, linear and nonlinear, ordinary and partial. The differential equation may be of the first order, second order and ever more than that. The n th order differential equation is an equation involving nth derivative. The most common differential equations that we often come across are first-order linear differential equations.
The ordinary linear differential equations are represented in the following general form:
y’ + P y=Q
or
dy/dx + P(x) y = Q(x)
Where y’ or dy/dx is the first derivative. Also, the functions P and Q are the functions of x only.
There are mainly two methods which are utilized in order to solve the linear first-order differential equations:
In this article, we are going to discuss what is integrating factor method, and how the integrating factors are used to solve the first and second-order differential equations.
Integrating factor is defined as the function which is selected in order to solve the given differential equation. It is most commonly used in ordinary linear differential equations of the first order.
When the given differential equation is of the form;
then the integrating factor is defined as;
Where P(x) (the function of x) is a multiple of y and μ denotes integrating factor.
Below are the steps to solve the first-order differential equation using the integrating factor.
The second-order differential equation can be solved using the integrating factor method.
Let the given differential equation be,
The second-order equation of the above form can only be solved by using the integrating factor.
Since u = y’, hence to find the value of y, integrate the equation. In this way, we get the required solution.
Example:
Solve the differential equation using the integrating factor: (dy/dx) – (3y/x+1) = (x+1) 4
Solution:
Given: (dy/dx) – (3y/x+1) = (x+1) 4
First, find the integrating factor:
∫(-3/ x+1)dx = -3 ln (x+1) = ln (x+1) -3
Now, multiply the integrating factor on both the sides of the given differential eqaution:
[1/ (x+1) 3 ] [dy/dx] – [3y/( (x+1) 4 )] = (x+1)
Integrate both the sides, we get:
[y/(x+1) 3 ] = [(1/2)x 2 +x+c]
Here, c is a constant
Therefore, the general solution of the given differential eqaution is
y = [(x+1) 3 ] [(1/2)x 2 +x+c].
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