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Differential Equations: Definition, Types, Solutions and Order of Differential Equation
In Mathematics, a differential equation is an equation that contains one or more functions with its derivatives. The derivatives of the function define the rate of change of a function at a point. It is mainly used in fields such as physics, engineering, biology, and so on. The main purpose of differential equation is the study of solutions that satisfy the equations, and the properties of the solutions.
One of the easiest ways to solve the differential equation is by using explicit formulas.
Differential Equation Definition
A differential equation is an equation which contains one or more terms which involve the derivatives of one variable (i.e.. , dependent variable) with respect to the other variable (i.e.. , independent variable)
Here “x” is an independent variable and “y” is a dependent variable
For example,
A differential equation that contains derivatives which are either partial derivatives or ordinary derivatives. The derivatives represent a rate of change, and the differential equation describes a relationship between the quantity that is continuously varying and the speed of change. There are a lot of differential equations formulas to find the solution of the derivatives.
Differential Equation Types
Differential equations can be divided into several types namely
- Ordinary Differential Equations
- Partial Differential Equations
- Linear Differential Equations
- Non-linear differential equations
- Homogeneous Differential Equations
- Non-homogenous Differential Equations
Differential Equations Solutions
To find the solution of differential equation, there are two methods to solve differential function.
1. Separation of variables
2. Integrating factor
Differential Equation
Separation of the variable is done when the differential equation can be written in the form of where f is the function of only and g is the function of only. Taking an initial condition, we rewrite this problem as and then integrate them from both sides.
Integrating factor technique is used when the differential equation is of the form where p and q are both the functions of only.
First-order differential equation is of the form where P and Q are both functions of and hence called first-order differential equation because it contains functions and the first derivative of . The higher-order differential equation is an equation that contains derivatives of an unknown function which can be either a partial or ordinary derivative. It can be represented in any order.
We also provide differential equation solver to find the solutions for related problems.
Order of Differential Equation
The order of the differential equation is the order of the highest order derivative present in the equation. Here some of the examples for different orders of the differential equation are given.
- The order of the equation is 1
- . The order is 2
- The order is 1.
First Order Differential Equation
It is a first-order differential equation which has degree equal to 1.
All the linear equations in the form of derivatives are in the first order. It has only the first derivative such as where x and y are the two variables and is represented as,
Second-Order Differential Equation
The equation which includes second-order derivative is the second-order differential equation. It is represented as,
Degree of Differential Equation
The degree of the differential equation is the order of the highest order derivative, where the original equation is represented in the form of a polynomial equation in derivatives such as y ‘, y “, y” ’ , and so on.
Suppose is a differential equation, so the degree of this equation here is 2. See some more examples here:
- , degree is 1
- degree is 3
Ordinary Differential Equation
An ordinary differential equation involves function and its derivatives. It contains only one independent variable and one or more of its derivatives with respect to the variable.
The order of ordinary differential equations is defined to be the order of the highest derivative that occurs in the equation. The general form of n-th order ODE is given as
Applications
Let us see some differential equation applications in real-time.
(1) Differential equations describe various exponential growths and decays.
(2) They are also used to describe the change in investment return over time.
(3) They are used in the field of medical science for modelling cancer growth or the spread of disease in the body.
(4) Movement of electricity can also be described with the help of it.
(5) They help economists in finding optimum investment strategies.
(6) The motion of waves or a pendulum can also be described using these equations.
The various other applications in engineering is: heat conduction analysis, in physics it can be used to understand the motion of waves. The ordinary differential equation can be utilized as an application in engineering field like for finding the relationship between various parts of the bridge.
Linear Differential Equations Real World Example
Think why a hot cup of coffee cools down when kept under normal conditions? According to Newton, cooling of a hot body is proportional to the temperature difference between its own temperature T and the temperature T0 of its surrounding. This statement in terms of mathematics can be written as:
This is the form of a linear differential equation.
Introducing a proportionality constant k, the above equation can be written as:
Here, is the temperature of the body and t is the time,
is the temperature of the surrounding,
is the rate of cooling of the body
The path of the projectile follows a curve which can be derived from an ordinary differential equation.
E. g. :
Here, the differential equation contains a derivative that involves a variable dependent variable, w. r. t another variable (independent variable, ) . The types of differential equations are :
1. An ordinary differential equation contain one independent variable and its derivatives. It is frequently called as ODE. The general definition of the ordinary differential equation is of the form: Given an F, a function os and and derivative of , we have
is an explicit ordinary differential equation of order n.
2. Partial differential equation that contains one or more independent variable.
Solved Problem
Question
Verify that the function is a solution to the differential equation
Solution
The function given is . We differentiate both the sides of the equation with respect to
Now we again differentiate the above equation with respect to
We substitute the values of and in the differential equation given in the question,
On left hand side we get, LHS
(which is equal to RHS)
Therefore, the given function is a solution to the given differential equation.
Question 2
Verify that the function is a solution to the differential equation
Solution
The function given is . We differentiate both the sides of the equation with respect to .
Now we again differentiate the above equation with respect to
We substitute the values of and in the differential equation given in the question,
On left hand side we get, LHS
(which is equal to RHS)
Therefore, the given function is a solution to the given differential equation.
FAQs on Differential Equations
What is Differential Equation?
In Mathematics, a differential equation is an equation with one or more derivative of a function. The derivative of the function is given by dy⟋dx. In other words, it is defined as the equation that contains derivatives of one or more dependent variables with respect to the one or more independent variables.
Mention the Various Types of Differential Equations
- The different types of differential equations are: Ordinary Differential EquationsPartial Differential EquationsHomogeneous Differential EquationsNon-homogeneous Differential EquationsLinear Differential EquationsNonlinear Differential Equations
What is the Order of the Differential Equation?
The order of the highest order derivative present in the differential equation is called the order of the equation. If the order of differential equation is 1, then it is called first order. If the order of the equation is 2, then it is called a second-order, and so on.
What is the Use of a Differential Equation?
The main purpose of the differential equation is to compute the function over its entire domain. It is used to describe the exponential growth or decay over time. It has the ability to predict the world around us. It is widely used in various fields such as Physics, Chemistry, Biology, Economics, and so on.