mathsrevision.net --> gcse
3rd Sep 2010

GCSE Maths

Recommended SiteSkip Contents

MathsRevision HOME

A-Level Home

GCSE Home

Revision World

Number

Numbers

Decimals

Fractions

Directed Numbers

Number Sequences

Surds

Percentages

Standard Form

Ratios

Proportion

Shape and Space

Angles

Circle Theorems

Loci

Shapes

Areas and Volumes

Constructions

Vectors

Transformations

Statistics and Probability

Probability

Averages

Standard Deviation

Sampling

Cum. Freq. Graphs

Representing Data

Histograms

Graphs

Travel Graphs

Gradients

Graphs

Algebra

Factorising

Algebraic Fractions

Solving Equations

Simultaneous Equations

Inequalities

Indices

Quadratic Equations

Functions

Trigonometry

Sin, Cos, Tan

Pythagoras

Sin and Cosine Formulae

Bearings

Intercept Theorem

Similar Triangles

Congruency

Other

Coursework

Practice Questions

Graphs

The Equation of a Straight Line

Equations of straight lines are in the form y = mx + c (m and c are numbers). m is the gradient of the line and c is the y-intercept (where the graph crosses the y-axis). 

NB1: If you are given the equation of a straight-line and there is a number before the 'y', divide everything by this number to get y by itself, so that you can see what m and c are.
NB2: Parallel lines have equal gradients.

y = (4/3)x - 2

The above graph has equation y = (4/3)x - 2 (which is the same as 3y + 6 = 4x).
Gradient = change in y / change in x = 4 / 3
It cuts the y-axis at -2, and this is the constant in the equation.

Graphs of Quadratic Equations

These are curves and will have a turning point. Remember, quadratic equations are of the form: y = ax² + bx + c (a, b and c are numbers). If 'a' is positive, the graph will be 'U' shaped. If 'a' is negative, the graph will be 'n' shaped. The graph will always cross the y-axis at the point c (so c is the y-intercept point). Graphs of quadratic functions are sometimes known as parabolas.

Example

y = x squared and y = 2 - x squared

Drawing Other Graphs

Often the easiest way to draw a graph is to construct a table of values.

Example

Draw y = x² + 3x + 2 for -3 £ x £ 3

x -3 -2 -1 0 1 2 3
9 4 1 0 1 4 9
3x -9 -6 -3 0 3 6 9
2 2 2 2 2 2 2 2
y 2 0 0 2 6 12 20


The table shows that when x = -3, x² = 9, 3x = -9 and 2 = 2. Since y = x² + 3x + 2, we add up the three values in the table to find out what y is when x = -3, etc.
We then plot the values of x and y on graph paper.

Intersecting Graphs

If we wish to know the coordinates of the point(s) where two graphs intersect, we solve the equations simultaneously.

Solving Equations

Any equation can be solved by drawing a graph of the equation in question. The points where the graph crosses the x-axis are the solutions. So if you asked to solve x² - 3 = 0 using a graph, draw the graph of y = x² - 3 and the points where the graph crosses the x-axis are the solutions to the equation.

We can also sometimes use the graph of one equation to solve another.

Example

Draw the graph of y = x² - 3x + 5 . 
Use this graph to solve 3x + 1 - x² = 0 and x² - 3x - 6 = 0

Answer:

1) Make a table of values for y = x² - 3x + 5 and draw the graph.
2) Make the equations you need to solve like the one you have the graph of. 
So for 3x + 1 - x² = 0:
i) multiply both sides by -1 to get x² - 3x - 1 = 0
ii) add 6 to both sides: x² - 3x + 5 = 6
Now, the left hand side is our y above, so to solve the equation, we find the values of x when y = 6 (you should get two answers).

Try solving x² - 3x - 6 = 0 yourself using your graph of y = x² - 3x + 5. You should get a answers of around -1.4 and 4.4 .

MathsRevision.Net Home;Revision World;