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Date May 2012 Marks available 3 Reference code 12M.2.hl.TZ2.1
Level HL only Paper 2 Time zone TZ2
Command term Find Question number 1 Adapted from N/A

Question

The sum of the first 16 terms of an arithmetic sequence is 212 and the fifth term is 8.

Find the first term and the common difference.

[4]
a.

Find the smallest value of n such that the sum of the first n terms is greater than 600.

[3]
b.

Markscheme

\({S_n} = \frac{n}{2}[2a + (n - 1)d]\)

\(212 = \frac{{16}}{2}(2a + 15d)\,\,\,\,\,( = 16a + 120d)\)     A1

\({n^{th}}{\text{ term is }}a + (n - 1)d\)

\(8 = a + 4d\)     A1

solving simultaneously:     (M1) 

\(d = 1.5,{\text{ }}a = 2\)     A1

[4 marks]

a.

\(\frac{n}{2}[4 + 1.5(n - 1)] > 600\)     (M1)

\( \Rightarrow 3{n^2} + 5n - 2400 > 0\)     (A1)

\( \Rightarrow n > 27.4...,{\text{ }}(n < - 29.1...)\) 

Note: Do not penalize improper use of inequalities. 

 

\( \Rightarrow n = 28\)     A1

[3 marks]

b.

Examiners report

This proved to be a good start to the paper for most candidates. The vast majority made a meaningful attempt at this question with many gaining the correct answers. Candidates who lost marks usually did so because of mistakes in the working. In part (b) the most efficient way of gaining the answer was to use the calculator once the initial inequality was set up. A small number of candidates spent valuable time unnecessarily manipulating the algebra before moving to the calculator.

a.

This proved to be a good start to the paper for most candidates. The vast majority made a meaningful attempt at this question with many gaining the correct answers. Candidates who lost marks usually did so because of mistakes in the working. In part (b) the most efficient way of gaining the answer was to use the calculator once the initial inequality was set up. A small number of candidates spent valuable time unnecessarily manipulating the algebra before moving to the calculator.

b.

Syllabus sections

Topic 1 - Core: Algebra » 1.1 » Arithmetic sequences and series; sum of finite arithmetic series; geometric sequences and series; sum of finite and infinite geometric series.
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