Mathematics HL November 2008P2M

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16 pages




MARKSCHEME





November 2008





MATHEMATICS





Higher Level





Paper 2



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This markscheme is confidential and for the exclusive use of
examiners in this examination session.

It is the property of the International Baccalaureate and
must not be reproduced or distributed to any other person
without the authorization of IB Cardiff.


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Instructions to Examiners

Abbreviations

M

Marks awarded for attempting to use a correct Method; working must be seen.


(M) Marks awarded for Method; may be implied by correct subsequent working.

A

Marks awarded for an Answer or for Accuracy; often dependent on preceding M marks.

(A)

Marks awarded for an Answer or for Accuracy; may be implied by correct subsequent working.


R

Marks awarded for clear Reasoning.


N

Marks awarded for correct answers if no working shown.


AG

Answer given in the question and so no marks are awarded.

Using the markscheme

1

General

Write the marks in red on candidates’ scripts, in the right hand margin.

Show the breakdown of individual marks awarded using the abbreviations M1, A1, etc.

Write down the total for each question (at the end of the question) and circle it.

2

Method and Answer/Accuracy marks

Do not automatically award full marks for a correct answer; all working must be checked, and

marks awarded according to the markscheme.

It is not possible to award M0 followed by A1, as A mark(s) depend on the preceding M mark(s), if

any.

Where M and A marks are noted on the same line, e.g. M1A1, this usually means M1 for an

attempt to use an appropriate method (e.g. substitution into a formula) and A1 for using the
correct values.

Where the markscheme specifies (M2), N3, etc., do not split the marks.

Once a correct answer to a question or part-question is seen, ignore further working.

3

N marks


Award N marks for correct answers where there is no working.

Do not award a mixture of N and other marks.

There may be fewer N marks available than the total of M, A and R marks; this is deliberate as it

penalizes candidates for not following the instruction to show their working.

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4

Implied marks

Implied marks appear in brackets e.g. (M1), and can only be awarded if correct work is seen or

if

implied in subsequent working.

Normally the correct work is seen or implied in the next line.

Marks without brackets can only be awarded for work that is seen.

5

Follow through marks

Follow through (FT) marks are awarded where an incorrect answer from one part of a question is
used correctly in subsequent part(s). To award FT marks, there must be working present and not
just a final answer based on an incorrect answer to a previous part.

If the question becomes much simpler because of an error then use discretion to award fewer FT

marks.

If the error leads to an inappropriate value (e.g. sin

1.5

), do not award the mark(s) for the final

answer(s).

Within a question part, once an error is made, no further dependent A marks can be awarded, but

M marks may be awarded if appropriate.

Exceptions to this rule will be explicitly noted on the markscheme.

6

Mis-read

If a candidate incorrectly copies information from the question, this is a mis-read (MR). Apply a MR
penalty of 1 mark to that question. Award the marks as usual and then write –1(MR) next to the total.
Subtract 1 mark from the total for the question. A candidate should be penalized only once for a
particular mis-read.

If the question becomes much simpler because of the MR, then use discretion to award fewer

marks.

If the MR leads to an inappropriate value (e.g. sin

1.5

), do not award the mark(s) for the final

answer(s).

7

Discretionary marks (d)


An examiner uses discretion to award a mark on the rare occasions when the markscheme does not
cover the work seen. The mark should be labelled (d) and a brief note written next to the mark
explaining this decision.

8

Alternative methods

Candidates will sometimes use methods other than those in the markscheme. Unless the question
specifies a method, other correct methods should be marked in line with the markscheme. If in doubt,
contact your team leader for advice.

Alternative methods for complete questions are indicated by METHOD 1, METHOD 2, etc.

Alternative solutions for part-questions are indicated by EITHER . . . OR.

Where possible, alignment will also be used to assist examiners in identifying where these

alternatives start and finish.

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9

Alternative forms


Unless the question specifies otherwise, accept equivalent forms.

As this is an international examination, accept all alternative forms of notation.

In the markscheme, equivalent numerical and algebraic forms will generally be written in

brackets immediately following the answer.

In the markscheme, simplified answers, (which candidates often do not write in examinations), will

generally appear in brackets. Marks should be awarded for either the form preceding the bracket or
the form in brackets (if it is seen).


Example: for differentiating

( )

2sin (5

3)

f x

x

, the markscheme gives:


( )

2 cos (5

3) 5

f

x

x

10cos (5

3)

x

A1

Award A1 for

2 cos (5

3) 5

x

, even if 10cos (5

3)

x

is not seen.

10

Accuracy of Answers

If the level of accuracy is specified in the question, a mark will be allocated for giving the answer to
the required accuracy.

Rounding errors: only applies to final answers not to intermediate steps.

Level of accuracy: when this is not specified in the question the general rule applies: unless

otherwise stated in the question all numerical answers must be given exactly or correct to three
significant figures
.

Candidates should be penalized once only IN THE PAPER for an accuracy error (AP). Award the
marks as usual then write (AP) against the answer. On the front cover write –1(AP)
. Deduct 1 mark
from the total for the paper, not the question
.

If a final correct answer is incorrectly rounded, apply the AP.

If the level of accuracy is not specified in the question, apply the AP for correct answers not given

to three significant figures.

If there is no working shown, and answers are given to the correct two significant figures, apply the
AP. However, do not accept answers to one significant figure without working.

11

Crossed out work

If a candidate has drawn a line through work on their examination script, or in some other way
crossed out their work, do not award any marks for that work.

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SECTION A

1.

sin

sin 35

6.5

4

B

M1

68.8

B

or 111

A1A1

76.2 or 33.8

C

(accept 34

)

A1

AB

BC

sin

sin

C

A

AB

4

sin 76.2

sin 35

(M1)

AB

6.77 cm

A1

AB

4

sin 33.8

sin 35

AB

3.88 cm

(accept 3.90)

A1

[7 marks]



2.

1

2 1.05

500

n

M1

log 250

1

log 1.05

n

 

M1

1 113.1675...

n

 

A1

115

n

(A1)

115

521

u

A1

N5


Note: Accept graphical solution with appropriate sketch.

[5 marks]


3.

(a)

3

2.5

1.5

(

1)

d

0.4625

( 0.463)

60

x

x

M1A1

(b)

3

3

1

(

1)

E ( )

d

2.31

60

x x

X

x

M1A1

(c)

3

1

(

1)

d

0.5

60

m

x

x

M1

4

1

(

1)

0.5

240

m

x

(A1)

2.41

m

A1

[7 marks]


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4.

cos

a b

a b

(M1)

1

3

2

2

7

3

3

m

m

 

 

 

  

 

 

 

a b

A1

2

14

13 m

a

b

A1

2

cos

14 13

cos30

m

a b

2

7 3

14 13

cos30

m

m

A1

2.27,

25.7

m

m

A1A1

[6 marks]


5.

(a)

1

2

3

3 1

2

4

5

0

7

5

k

M1

1

2

2

R

R

5 0

7

8

3

1

2

4

5

0

7

5

k

(A1)

1

3

R

R

0

0

0

3

3 1

2

4

5

0

7

5

k

(A1)

Hence no solutions if

,

3

k

k

A1


(b)

Two planes meet in a line and the third plane is parallel to that line.

A1

[5 mark]


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6.

(a)

A1

Note: Award A1 for shape.

x intercepts 0.354, 1.36, 2.59, 2.95

A2

Note:

Award A1 for three correct, A0 otherwise.

maximum

(1.57, 0.352)

, 0.352

2

 

A1

minimum

(1,

0.640) and (2.77,

0.0129)

A1


(b)

0

0.354, 1.36

2.59, 2.95

4

x

x

x

 

 

 

A2

Note: Award A1 if two correct regions given.

[7 marks]



7.

(a)

Po (3.2)

X

3.2

4

e

3.2

P (

4)

4!

X

0.178

A1


(b)

(i)

2

2

Var ( )

E (

)

E ( )

Y

Y

Y

(M1)

2

5.5

m

m

A1

1.90 (or

2.90 which is invalid)

m

m

 

A1


(ii)

Po (1.90)

Y

1.90

3

e

1.90

P (

3)

3!

Y

 

(M1)

0.171

A1


(c)

Required probability

0.171 0.178

0.0304

(accept 0.0305)

(M1)A1

[8 marks]


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8.

2

1

ln

(1 e

)

3

x

y


EITHER

2

2

2

e

d

3

1

d

(1 e

)

3

x

x

y

x

M1A1

2

2

d

2e

d

1 e

x

x

y

x

A1

2

1

e

(1 e

)

3

y

x

M1

Now

2

e

3e

1

x

y

A1

d

2(3e

1)

d

1 3e

1

y

y

y

x

A1

2

(3e

1)

3e

y

y

 

2

(3 e )

3

y

 

A1

2

(e

3)

3

y

AG


OR

2

1

e

(1 e

)

3

y

x

M1A1

2

d

2

e

e

d

3

y

x

y

x

 

M1A1

Now

2

e

3e

1

x

y

(A1)

d

2

e

(3e

1)

d

3

y

y

y

x

 

d

2

e (3e

1)

d

3

y

y

y

x

 

(A1)

2

( 3 e )

3

y

 

(A1)

2

(e

3)

3

y

AG

Note: Only two of the three (A1) marks may be implied.

[7 marks]

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9.

Let the number of mosquitoes be y.

d

d

y

ky

t

 

M1

1

d

d

y

k t

y

 

M1

ln y

kt

c

  

A1

e

kt c

y

 

e

kt

y

A

when

0,

500 000

500 000

t

y

A

 

A1

500 000e

kt

y

when

5,

400 000

t

y

5

400 000

500 000e

k

M1

5

4

e

5

k

4

5

ln

5

k

1

4

ln

( 0.0446)

5

5

k

 

A1

250 000

500 000e

kt

M1

1

e

2

kt

1

ln

2

kt

 

5

1

ln

15.5

4

2

ln

5

t

years

A1

[8 marks]

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SECTION B


10.

(a)

3

2

x

m

 

2

y

m

 

7

2

z

m

 

A1


1 4

x

n

 

4

y

n

 

2

z

n

 

A1

[2 marks]


(b)

3

2

1 4

2

4

2

m

n

m

n

 

 

(i)

2

4

2

m

n

m

n

      

(ii)

M1

7

2

2

2

5

m

n

m

n

  

  

(iii)

(iii)

(ii)

3

m

  

A1

1

n

  

A1

Substitute in (i), 6

4

2

   

. Hence lines intersect.

R1

Point of intersection A is ( 3, 5, 1)

A1

[5 marks]

(c)

1

2

1 2

6

4

1 1

2

 

 

  

 

 

i

j

k

M1A1

1

3

1

6

2

6

2

7

2

     

     

     

     

     

r

(M1)

1

6

29

2

 

  

 

 

 

r

6

2

29

x

y

z

A1


Note: Award M1A0 if answer is not in Cartesian form.

[4 marks]


(d)

8 3

x

  

3 8

y

  

(M1)

2

z

Substitute in equation of plane.

8 3

18

48

4

29

 

M1

55

55

1

A1

Coordinates of B are ( 5, 5, 2)

A1

[4 marks]



continued …

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Question 10 continued

(e)

Coordinates of C are

3

4, 5,

2

(A1)

4

1

5

6

3

2

2

 

 

 

 

 

r

M1A1

Note: Award M1A0 unless candidate writes

r

or

x

y

z

 

  

 

 

 

[3 marks]


Total [18 marks]

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11.

Part A


(a)

2

N(231, 1.5 )

X

P (

228)

0.0228

X

(M1)A1

Note: Accept 0.0227.

[2 marks]


(b)

(i)

2

N ( , 1.5 )

X

P (

228)

0.002

X

228

2.878...

1.5

 

M1A1

232 grams

A1

N3

(ii)

2

N (231,

)

X

228 231

2.878...

 

M1A1

1.04 grams

A1

N3

[6 marks]


(c)

B(100, 0.002)

X

(M1)

P (

1)

0.982...

X

 

(A1)

P (

2) 1 P (

1)

0.0174

X

X

 

 

A1

[3 marks]


Sub-total [11 marks]



continued …

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Question 11 continued

Part B

(a)

Boys can be chosen in

6 5

15

2

ways

(A1)

Girls can be chosen in

5 4

10

2

ways

(A1)

Total 15 10 150

ways

A1

[3 marks]


(b)

Number of ways

5 4

20

  

(M1)A1

[2 marks]

(c)

20

2

150

15

A1

[1 mark]


(d)

METHOD 1

1

2

P ( )

; P ( )

5

5

T

A

A1

P( or

but not both)

P( ) P( )

P( ) P( )

T

A

T

A

T

A

M1A1

1

3

4

2

11

5

5

5

5

25

    

A1


METHOD 2

Number of selections including Fred

5

5

50

2

 

 

 

 

A1

Number of selections including Tim but not Anna

4

6

2

 

 

 

A1

Number of selections including Anna but not Tim

4 4 16

  

Note: Both statements are needed to award A1.

6 16

11

P (

or

but not both)

50

25

T

A

M1A1

[4 marks]


Sub-total [10 marks]


Total [21 marks]

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12.

(a)

For

2

9

x

x

, 3

3

x

  

and for 2arcsin

3

x

 

 

 

, 3

3

x

  

A1

is

3

3

D

x

  

A1

[2 marks]

(b)

2

2.8

2

0

9

2arcsin

d

3

x

V

x

x

x

 

M1A1

181

A1

[3 marks]

(c)

1

2

2

2

1

2

2

2

2

d

3

(9

)

d

(9

)

1

9

y

x

x

x

x

x

 

M1A1

1

2

2

2

1

1

2

2

2

2

2

(9

)

(9

)

(9

)

x

x

x

x

 

A1

2

2

1

2

2

9

2

(9

)

x

x

x

A1

2

2

11 2

9

x

x

A1

[5 marks]

(d)

2

2

2

11 2

d

9

2arcsin

3

9

p

p

p

p

x

x

x

x

x

x

M1

2

2

9

2arcsin

9

2arcsin

3

3

p

p

p

p

p

p

A1

2

2

9

4arcsin

3

p

p

p

 

 

 

AG

[2 marks]


(e)

2

11 2

0

p

M1

2.35

p

11

2

A1


Note: Award A0 for

2.35

p

 

.

[2 marks]


continued …

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Question 12 continued

(f)

(i)

1

1

2

2

2

2

2

2

(9

) ( 4 )

(11 2

) (9

)

( )

9

x

x

x

x

x

f

x

x



M1A1

2

2

3

2

2

4 (9

)

(11 2

)

(9

)

x

x

x

x

x

A1

3

3

3

2

2

36

4

11

2

(9

)

x

x

x

x

x

A1

2

3

2

2

(2

25)

(9

)

x

x

x

AG


(ii)

EITHER

When 0

3

x

 

,

( )

0

f

x



. When 3

0

x

  

,

( )

0

f

x



.

A1


OR

(0)

0

f



A1


THEN

Hence

( )

f

x



changes sign through

0

x

, giving a point of inflexion.

R1

EITHER

25

2

x

 

is outside the domain of f.

R1

OR

25

2

x

 

is not a root of

( )

0

f

x



.

R1

[7 marks]


Total [21 marks]



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