2 Find the equation of the cubic function which:
a hasx-intercepts 1 and 3 , y-intercept 9 and passes through(¡ 1 ,8)
b touches thex-axis at 3 , hasy-intercept 18 and passes through(1,20).3 The graph alongside has the form y=2x^3 +bx^2 +cx¡ 12.
Find the values ofbandc.4 The graph alongside has the form y=¡x^3 +bx^2 +4x+d.
Find the values ofbandd.Consider the mapping “add 5 ”:¡ 2
0
1
4
“add 5 ”
3
5
6
9Suppose we wanted to reverse this mapping, so we want to map 3 back to¡ 2 , 5 back to 0 , and so on.To achieve this we would use the reverse
orinverseoperation of “add 5 ”, which is
“subtract 5 ”:¡ 2
0
1
4
“subtract 5 ”
3
5
6
9Theinverse function f¡^1 of a functionfis the function such that, for every value ofxthatfmaps
to f(x), f¡^1 mapsf(x)back tox.From the above example, we can see that the inverse of f(x)=x+5 or “add 5 ”is f¡^1 (x)=x¡ 5
or “subtract 5 ”.
Consider the function f(x)=x^3 +4. The process performed by this function is to “cubex, then add 4 ”.
To find f¡^1 (x), we need to reverse this process. Using inverse operations, we “subtract 4 , then take the
cube root of the result”, and so f¡^1 (x)=^3p
x¡ 4.Unfortunately, it is not always so easy to reverse the process in a given function. However, there is an
algebraic method we can use to find the inverse function.The inverse of y=f(x) can be found algebraically by interchangingxandy, and then makingythe
subject of the resulting formula. The newyis f¡^1 (x).B INVERSE FUNCTIONS [3.9]
yO x-3
2Further functions (Chapter 23) 473Oyx2IGCSE01
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Y:\HAESE\IGCSE01\IG01_23\473IGCSE01_23.cdr Friday, 14 November 2008 12:16:55 PM PETER