Computing the area under a curve

A brief introduction to engineering Page 1 / 2

Basic Numerical Integration with MATLAB

Plot

This chapter essentially deals with the problem of computing the area under a curve. First, we will employ a basic approach and form trapezoids under a curve. From these trapezoids, we can calculate the total area under a given curve. This method can be tedious and is prone to errors, so in the second half of the chapter, we will utilize a built-in MATLAB function to carry out numerical integration.

A basic approach

There are various methods to calculating the area under a curve, for example, Rectangle Method , Trapezoidal Rule and Simpson's Rule . The following procedure is a simplified method.

Consider the curve below:

Each segment under the curve can be calculated as follows:

12 y_{0} y_{1} Δx 12 y_{1} y_{2} Δx 12 y_{2} y_{3} Δx

Therefore, if we take the sum of the area of each trapezoid, given the limits, we calculate the total area under a curve. Consider the following example.

Given the following data, plot an x-y graph and determine the area under a curve between x=3 and x=30

Data Set

Index	x [m]	y [N]
1	3	27.00
2	10	14.50
3	15	9.40
4	20	6.70
5	25	5.30
6	30	4.50

First, let us enter the data set. For x, issue the following command x=[3,10,15,20,25,30]; . And for y, y=[27,14.5,9.4,6.7,5.3,4.5]; . If yu type in [x',y'] , you will see the following tabulated result. Here we transpose row vectors with ' and displaying them as columns:

ans =

    3.0000   27.000010.0000   14.5000
   15.0000    9.400020.0000    6.7000
   25.0000    5.300030.0000    4.5000

Compare the data set above with the given information in the question .

To plot the data type the following:

plot(x,y),title('Distance-Force Graph'),xlabel('Distance[m]'),ylabel('Force[N]'),grid

The following figure is generated:

To compute dx for consecutive x values, we will use the index for each x value, see the given data in the question .:

dx=[x(2)-x(1),x(3)-x(2),x(4)-x(3),x(5)-x(4),x(6)-x(5)];

dy is computed by the following command:

dy=[0.5*(y(2)+y(1)),0.5*(y(3)+y(2)),0.5*(y(4)+y(3)),0.5*(y(5)+y(4)),0.5*(y(6)+y(5))];

dx and dy can be displayed with the following command: [dx',dy'] . The result will look like this:

[dx',dy']

ans =7.0000   20.7500
    5.0000   11.95005.0000    8.0500
    5.0000    6.00005.0000    4.9000

Our results so far are shown below

x, y and corresponding differential elements

x [m]	y [N]	dx [m]	dy [N]
3	27.00
10	14.50	7.00	20.75
15	9.40	5.00	11.95
20	6.70	5.00	8.05
25	5.30	5.00	6.00
30	4.50	5.00	4.90

If we multiply dx by dy, we find da for each element under the curve. The differential area da=dx*dy, can be computed using the 'term by term multiplication' technique in MATLAB as follows:

da=dx.*dy

da =145.2500   59.7500   40.2500   30.0000   24.5000

Each value above represents an element under the curve or the area of trapezoid. By taking the sum of array elements, we find the total area under the curve.

sum(da)

ans =299.7500

The following illustrates all the steps and results of our MATLAB computation.

Computation of the approximate area under a curve

x [m]	y [N]	dx [m]	dy [N]	dA [Nm]
3	27.00
10	14.50	7.00	20.75	145.25
15	9.40	5.00	11.95	59.75
20	6.70	5.00	8.05	40.25
25	5.30	5.00	6.00	30.00
30	4.50	5.00	4.90	24.50
				299.75

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Source: OpenStax, A brief introduction to engineering computation with matlab. OpenStax CNX. Nov 17, 2015 Download for free at http://legacy.cnx.org/content/col11371/1.11

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