GRAPHS
A graph is a representation of a set of points or
co-ordinates where they can be linked or joined using a line or curve. The
interconnected points are called vertices. Typically, a graph is depicted in
diagrammatical form as a set of dots/asterisks and the vertices are joined with
lines or curves called edges.
We will majorly be making reference to linear (straight
line) graphs as they are the type of graphs that result from linear equations
or functions. Aside from representing information, graphs can be used for
solving equations (whether linear, quadratic, etc).
Axes of reference:
Axes (axis for singular) simply refer to the axes that
make up the graph. Normally, every graph has two axes; viz, the horizontal axis
(x-axis) and the vertical axis (y-axis). These axes serve as a means for
representing strategic points in any graph. Co-ordinates or points on a graph
are usually represented in the form (x1,y1). The value of
x1 is located on the x-axis and that of y1 is located on
the y-axis as well. After this has been done, they are successively traced out
until they reach an intersection point (where they meet). This point is
referred to as a vertice (x1,y1). This same procedure is
carried out for as many points or co-ordinates as made available. After this
has been successfully done, all the successive points are joined with lines or
curves.
Origin of axes:
The origin of either axis can be defined as the
intersection point of the two axes. At this point, both axes have a value of x
= 0 and y = 0.
Axis of co-ordinate:
In writing the values of the co-ordinates of any graph,
all values for the x axis always come first before all values for the y-axis.
That is, for instance, (x1,y1), (x2,y2),
(xn,yn), etc. the two axes combine to form the Cartesian
plane.
Plotting a graph:
In plotting a graph, one must establish all the necessary
values of x and y respectively and represent them appropriately. In
representing them appropriately, there must be a well-defined scale for anyone
to read and accurately interpret the graph. In questions where one is asked to
plot a graph, co-ordinates can be given outrightly. These co-ordinates are then
plotted on the Cartesian plane and joined with a straight line or curve.
Example:
Plot the graph of X against Y, given the following values
for x and y respectively.
|
x
|
Y
|
|
1
|
10
|
|
2
|
8
|
|
3
|
6
|
|
4
|
4
|
|
5
|
2
|
The graph of the table above is thus:
The graph of y against x
Scale:
let 1cm represent 1 unit on x-axis
let 1cm represent 2 units on the y-axis
In some cases, the co-ordinates for a graph may be directly
provided. The same procedure is applicable.
Example:
Plot a graph of the following co-ordinates:
A(3,2); B(6,-7); C(0,11)
The co-ordinates can be rewritten as:
|
x
|
y
|
|
3
|
2
|
|
6
|
-7
|
|
0
|
11
|
Thus, the graph for the above given values of x and y is thus:
The graph of y against x
scale:
let 1cm represent 2 units on the y-axis
let 1cm represent 2 unit on the x-axis
Also, the values for plotting a graph could be given in
form of an equation for y, where the corresponding values of x are given.
Example:
Plot the graph of 2x-y = 4 where x is defined by 0≤X≤4
First, we make y the subject of the formula
-y = 4-2x (moving 2x to the right side)
Y = 2x-4 (dividing through by -1)
Thus, we proceed to obtain values for y, when x = 0,1,2,3
and 4
|
x
|
0
|
1
|
2
|
3
|
4
|
|
2x
|
0
|
2
|
4
|
6
|
8
|
|
-4
|
-4
|
-4
|
-4
|
-4
|
-4
|
|
y
|
-4
|
-2
|
0
|
2
|
4
|
Bringing out the values of x and y, we have:
|
x
|
y
|
|
0
|
-4
|
|
1
|
-2
|
|
2
|
0
|
|
3
|
2
|
|
4
|
4
|
From the table above, the graph below can easily be
obtained:
The graph of y
against x
Scale:
Let 1cm represent 1 unit on x-axis
Let 1cm represent 1 unit on y-axis
It is noteworthy that what we have been making reference
to is the straight line/linear graph. Now, let us examine graphs in form of
curves. Usually, quadratic equations or equations of higher orders (degrees) give
rise to curves when plotted in graphical forms.
Example:
Plot the graph of y = 2x2-5x-3 given that the
values of x is defined by -2≤x≤5
Solution
To plot this curve, we must tabulate our values as usual
to avoid unnecessary hiccups or complications.
|
x
|
-2
|
-1
|
0
|
1
|
2
|
3
|
4
|
5
|
|
2x2
|
8
|
2
|
0
|
2
|
8
|
18
|
32
|
50
|
|
-5x
|
10
|
5
|
0
|
-5
|
-10
|
-15
|
-20
|
-25
|
|
-3
|
-3
|
-3
|
-3
|
-3
|
-3
|
-3
|
-3
|
-3
|
|
y
|
15
|
4
|
-3
|
-6
|
-5
|
0
|
9
|
22
|
We proceed to take out the relevant values, that is, x
and y:
|
x
|
y
|
|
-2
|
15
|
|
-1
|
4
|
|
0
|
-3
|
|
1
|
-6
|
|
2
|
-5
|
|
3
|
0
|
|
4
|
9
|
|
5
|
22
|
From the values above, we can easily plot the graph of y
against x thus:
The
graph of y against x
Scale: let 1cm represent 1 unit on x-axis
Let 1cm represent 5 units on y-axis
Finally, attempt this: y = 6+x-2x2
For more info on graphs, feel free to comments...................
great stuff
ReplyDeletereally dope....... being having issue with some of these things. i know better now. please give us something on interpolation
ReplyDelete