Algebra22P1^
1
EXAMPLE 1.30 Solve the equation x^2 − 6 x + 2 = 0 by completing the square.SOLUTION
Subtract the constant term from both sides of the equation:
⇒ x^2 − 6 x = − 2
Take the coefficient of x : − 6
Halve it: − 3
Square the answer: + 9
Add it to both sides of the equation:
⇒ x^2 − 6 x + 9 = − 2 + 9
Factorise the left-hand side. It will be found to be a perfect square:
⇒ (x − 3)^2 = 7
Take the square root of both sides:
⇒ x − 3 = ± 7
⇒ x = 3 ± 7
Using your calculator to find the value of 7
⇒ x = 5.646 or 0.354, to 3 decimal places.The graphs of quadratic functions
Look at the curve in figure 1.7. It is the graph of y = x^2 − 4 x + 5 and it has the
characteristic shape of a quadratic; it is a parabola.
Notice that:
●●it has a minimum point
(or vertex) at (2, 1)
●●●it has a line of symmetry, x = 2.
It is possible to find the vertex
and the line of symmetry without
plotting the points by using the
technique of completing the
square.} left-hand side a perfect square.●? Explain why this makes the
This is an exact answer.This is an approximate answer.– 2 3 4234yxx = 2(2)Figure 1.7