Polynomials (Chapter 6) 1679 2 x+1and x¡ 2 are factors of P(x)=2x^4 +ax^3 +bx^2 +18x+8.
a Findaandb. b Hence, solve P(x)=0.10 x^3 +3x^2 ¡ 9 x+c, c 2 R, has two identical linear factors. Prove thatcis either 5 or¡ 27 , and
factorise the cubic into linear factors in each case.Consider the cubic polynomial P(x)=x^3 +5x^2 ¡ 11 x+3.If we divide P(x) by x¡ 2 , we find that
x^3 +5x^2 ¡ 11 x+3
x¡ 2
=x^2 +7x+3+
9
x¡ 2remainderSo, when P(x) is divided by x¡ 2 , the remainder is 9.Notice also that P(2) = 8 + 20¡22 + 3
=9, which is the remainder.By considering other examples like the one above, we formulate theRemainder theorem.The Remainder Theorem
When a polynomial P(x) is divided by x¡k until a constant remainderR
is obtained, then R=P(k).Proof: By the division algorithm, P(x)=Q(x)(x¡k)+R
Letting x=k, P(k)=Q(k)£0+R
) P(k)=RWhen using the Remainder theorem, it is important to realise that the following statements are equivalent:
² P(x)=(x¡k)Q(x)+R
² P(k)=R
² P(x) divided by x¡k leaves a remainder ofR.Example 15 Self Tutor
Use the Remainder theorem to find the remainder when x^4 ¡ 3 x^3 +x¡ 4 is divided by x+2.If P(x)=x^4 ¡ 3 x^3 +x¡ 4 , then
P(¡2) = (¡2)^4 ¡3(¡2)^3 +(¡2)¡ 4
=16+24¡ 2 ¡ 4
=34
) when x^4 ¡ 3 x^3 +x¡ 4 is divided by x+2,
the remainder is 34. fRemainder theoremgC The Remainder theorem
The Remainder theorem
allows us to find a
remainder without having
to perform the division.4037 Cambridge
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Y:\HAESE\CAM4037\CamAdd_06\167CamAdd_06.cdr Monday, 14 April 2014 5:56:37 PM BRIAN