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Date May 2011 Marks available 4 Reference code 11M.2.hl.TZ1.5
Level HL only Paper 2 Time zone TZ1
Command term Find and Hence or otherwise Question number 5 Adapted from N/A

Question

Write down the quadratic expression \(2{x^2} + x - 3\) as the product of two linear factors.

[1]
a.

Hence, or otherwise, find the coefficient of \(x\) in the expansion of \({\left( {2{x^2} + x - 3} \right)^8}\) .

[4]
b.

Markscheme

\(2{x^2} + x - 3 = \left( {2x + 3} \right)\left( {x - 1} \right)\)     A1

Note: Accept \(2\left( {x + \frac{3}{2}} \right)\left( {x - 1} \right)\).

 

Note: Either of these may be seen in (b) and if so A1 should be awarded.

 

[1 mark]

a.

EITHER

\({\left( {2{x^2} + x - 3} \right)^8} = {\left( {2x + 3} \right)^8}{\left( {x - 1} \right)^8}\)     M1

\( = \left( {{3^8} + 8\left( {{3^7}} \right)\left( {2x} \right) + ...} \right)\left( {{{\left( { - 1} \right)}^8} + 8{{\left( { - 1} \right)}^7}\left( x \right) + ...} \right)\)     (A1)

coefficient of \(x = {3^8} \times 8 \times {\left( { - 1} \right)^7} + {3^7} \times 8 \times 2 \times {\left( { - 1} \right)^8}\)     M1

= −17 496     A1

Note: Under ft, final A1 can only be achieved for an integer answer.

 

OR

\({\left( {2{x^2} + x - 3} \right)^8} = {\left( {3 - \left( {x - 2{x^2}} \right)} \right)^8}\)     M1

\( = {3^8} + 8\left( { - \left( {x - 2{x^2}} \right)\left( {{3^7}} \right) + ...} \right)\)     (A1)

coefficient of \(x = 8 \times \left( { - 1} \right) \times {3^7}\)     M1

= −17 496     A1

Note: Under ft, final A1 can only be achieved for an integer answer.

 

[4 marks]

b.

Examiners report

Many candidates struggled to find an efficient approach to this problem by applying the Binomial Theorem. A disappointing number of candidates attempted the whole expansion which was clearly an unrealistic approach when it is noted that the expansion is to the 8th power. The fact that some candidates wrote down Pascal’s Triangle suggested that they had not studied the Binomial Theorem in enough depth or in a sufficient variety of contexts.

a.

Many candidates struggled to find an efficient approach to this problem by applying the Binomial Theorem. A disappointing number of candidates attempted the whole expansion which was clearly an unrealistic approach when it is noted that the expansion is to the 8th power. The fact that some candidates wrote down Pascal’s Triangle suggested that they had not studied the Binomial Theorem in enough depth or in a sufficient variety of contexts.

b.

Syllabus sections

Topic 1 - Core: Algebra » 1.3 » The binomial theorem: expansion of \({\left( {a + b} \right)^n}\), \(n \in N\) .
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