maths ext2 2005 exam
TRANSCRIPT
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Mathematics Extension 2
412
2005H I G H E R S C H O O L C E R T I F I C A T E
E X A M I N A T I O N
General Instructions
Reading time 5 minutes
Working time 3 hours
Write using black or blue pen
Board-approved calculators may
be used
A table of standard integrals is
provided at the back of this paper
All necessary working should be
shown in every question
Total marks 120
Attempt Questions 18
All questions are of equal value
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BLANK PAGE
2
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Total marks 120
Attempt Questions 18
All questions are of equal value
Answer each question in a SEPARATE writing booklet. Extra writing booklets are available.
Marks
Question 1 (15 marks) Use a SEPARATE writing booklet.
(a) Find .
(b) (i) Find real numbers a and b such that .
(ii) Hence find .
(c) Use integration by parts to evaluate .
(d) Using the table of standard integrals, or otherwise, find .
(e) Let .
(i) Show that .
(ii) Show that .
(iii) Use the substitution to find . 2cosec d
t= tan
2
2sin =+2
1 2
t
t
1dt
dt
= +( )
1
21 2
t= tan
2
2dx
x4 12
3x x dxe
e7
1 log
15
62x
x xdx
25
6 3 22
x
x x
a
x
b
x
+
+
2cos
sin
5d
3
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Question 2 (15 marks) Use a SEPARATE writing booklet.
(a) Let z = 3 + i and w = 1 i . Find, in the form x+ iy ,
(i) 2z + iw
(ii)
(iii) .
(b) Let .
(i) Express in modulus-argument form.
(ii) Express 5 in modulus-argument form.
(iii) Hence express 5 in the form x+ iy .
(c) Sketch the region on the Argand diagram where the inequalities
and
hold simultaneously.
Question 2 continues on page 5
z 1 1z z < 2
3
1
2
2
= 1 3i
16
w
1zw
1
4
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Question 2 (continued)
(d) Let l be the line in the complex plane that passes through the origin and makes
an angle with the positive real axis, where .
The point P represents the complex number z1, where 0 < arg(z1) < . The
point P is reflected in the line l to produce the point Q, which represents the
complex number z2. Hence .
(i) Explain why arg(z1) + arg(z2) = 2.
(ii) Deduce that .
(iii) Let and let R be the point that represents the complex
number z1z2.
Describe the locus ofR as z1 varies.
End of Question 2
1=4
1z z z i1 2 12
2 2= +( )cos sin
2
z z1 2=
O
P
Q
l
02<
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Question 3 (15 marks) Use a SEPARATE writing booklet.
(a) The diagram shows the graph of y =(x) .
Draw separate one-third page sketches of the graphs of the following:
(i) y =(x+ 3)
(ii)
(iii)
(iv) .
(b) Sketch the graph of , clearly indicating any asymptotes and any
points where the graph meets the axes.
Question 3 continues on page 7
4y xx
x= +
8
92
2y x= ( )
2y x= ( )
1y x= ( )
1
1
O
y
x
2
4
4
6
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Question 3 (continued)
(c) Find the equation of the normal to the curve x3 4xy +y3 = 1 at (2, 1) .
The diagram shows the forces acting on a point P which is moving on a
frictionless banked circular track. The point P has mass m and is moving in a
horizontal circle of radius r with uniform speed v. The track is inclined at an
angle to the horizontal. The point experiences a normal reaction force Nfrom
the track and a vertical force of magnitude mg due to gravity, so that the net
force on the particle is a force of magnitude directed towards the centre of
the horizontal circle.
By resolving N in the horizontal and vertical directions, show that
.
End of Question 3
N m g vr
= +24
2
mv
r
2
2
mg
P
N
mv2
r
(d)
3
7
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Question 4 (15 marks) Use a SEPARATE writing booklet.
The shaded region between the curve y = ex2
, thex-axis, and the lines x= 0 andx=N, where N> 0, is rotated about they-axis to form a solid of revolution.
(i) Use the method of cylindrical shells to find the volume of this solid in
terms ofN.
(ii) What is the limiting value of this volume as N ?
(b) Suppose , , and are the four roots of the polynomial equation
x4 + px3 + qx2 + rx+ s = 0.
(i) Find the values of + + + and + + + in termsofp, q, rand s.
(ii) Show that 2 + 2 + 2 + 2 = p2 2q .
(iii) Apply the result in part (ii) to show that x4 3x3 + 5x2 + 7x 8 = 0 cannothave four real roots.
(iv) By evaluating the polynomial at x= 0 and x= 1, deduce that thepolynomial equation x4 3x3 + 5x2 + 7x 8 = 0 has exactly two realroots.
Question 4 continues on page 9
2
1
2
2
1
3
y
xN
y e x= 2
(a)
8
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Question 4 (continued)
The point P(x1,y1) lies on the ellipse , where a > b > 0.
The equation of the normal to the ellipse at P is a2y1x b2x1y = (a
2 b2)x1y1.
(i) The normal at P passes through the point B(0, b) .
Show that or y1 = b .
(ii) Show that if , the eccentricity of the ellipse is at least .
End of Question 4
21
2y
b
a b1
3
2 2=
yb
a b1
3
2 2=
2
x
a
y
b
2
2
2
21+ =
y
x
B(0, b)
P(x1, y1)
(c)
9
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BLANK PAGE
10
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Question 5 (15 marks) Use a SEPARATE writing booklet.
The triangle ABC is right-angled at A and has sides with lengths a, b and c,
as shown in the diagram. The perpendicular distance from A to BC is d.
By considering areas, or otherwise, show that b2c2 = d2(b2 + c2) .
The points A, B and C lie on a horizontal surface. The point B is due southofA. The point C is due east ofA. There is a vertical tower, AT, of height h
at A. The point P lies on BCand is chosen so that AP is perpendicular to BC.
Let , and denote the angles of elevation to the top of the tower from B,Cand P respectively.
Using the result in part (i), or otherwise, show that tan2 = tan2 + tan2.
Question 5 continues on page 12
2T
South East
A
h
B P C
(ii)
1
b
A
B C
dc
a
(a) (i)
11
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Question 5 (continued)
(b) Mary and Ferdinand are competing against each other in a competition in which
the winner is the first to score five goals. The outcome is recorded by listing, inorder, the initial of the person who scores each goal. For example, one possible
outcome would be recorded as MFFMMFMM.
(i) Explain why there are five different ways in which the outcome could be
recorded if Ferdinand scores only one goal in the competition.
(ii) In how many different ways could the outcome of this competition be
recorded?
(c) Let a > 0 and let (x) be an increasing function such that (0) = 0 and(a) = b .
(i) Explain why .
(ii) Hence, or otherwise, find the value of .
Question 5 continues on page 13
3sin 1
0
2
4x dx
1 x dx ab x dxba
( ) = ( )
1
00
2
1
12
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Question 5 (continued)
(d) The base of a right cylinder is the circle in the xy-plane with centre O and
radius 3. A wedge is obtained by cutting this cylinder with the plane through they-axis inclined at 60 to the xy-plane, as shown in the diagram.
A rectangular slice ABCD is taken perpendicular to the base of the wedge at adistance x from the y-axis.
(i) Show that the area ofABCD is given by .
(ii) Find the volume of the wedge.
End of Question 5
3
22 27 3 2x x
A
C
B
O
3
3
3
D x x, ( )9 2
y
x
60x
13
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Question 6 (15 marks) Use a SEPARATE writing booklet.
(a) For each integer n 0, let .
(i) Prove by induction that
.
(ii) Show that
.
(iii) Hence show that
.
(iv) Hence find the limiting value of as .
Question 6 continues on page 15
1n 11
1
1
2
1+ + + +! ! !n
0 1 11
1
1
2
1 1
1
1 + + + + +( )
en n! ! ! !
1
01
10
1
+
t e dt n
n t
1
I x n e xx x x
nnx
n
( ) = + + + + +
!
! ! !1 1
2 3
2 3
4
I x t e dtnn t
x
( ) =
0
14
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Question 6 (continued)
(b) Let n be an integer greater than 2. Suppose is an nth root of unity and 1.
(i) By expanding the left-hand side, show that
(1 + 2+ 32 + 43 + + nn1) ( 1) = n .
(ii) Using the identity , or otherwise, prove that
,
provided that sin 0.
(iii) Hence, if , find the real part of .
(iv) Deduce that .
(v) By expressing the left-hand side of the equation in part (iv) in terms of
and , find the exact value, in surd form, of .
End of Question 6
cos
5cos
2
5
cos
5
3
11 22
53
4
54
6
55
8
5
5
2+ + + + = cos cos cos cos
11
1
= +cos sin2 2n
in
1
2 2 1 2cos sin
cos sin
sin
+ =
i
i
i
11
12
1
1z
z
z z=
2
15
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Question 7 (15 marks) Use a SEPARATE writing booklet.
The points A, B and P lie on a circle.
The chord AB produced and the tangent at P intersect at the point T, as shown
in the diagram. The point Nis the foot of the perpendicular to AB through P, and
the point Mis the foot of the perpendicular to PT through B.
Copy or trace this diagram into your writing booklet.
(i) Explain why BNPMis a cyclic quadrilateral.
(ii) Prove that MNis parallel to PA.
Let TB =p, BN= q, TM= r, MP = s, MB = tand NA = u.
(iii) Show that .
(iv) Deduce that s < u .
Question 7 continues on page 17
1
2s
u
r
p 0.
(i) Show that the minimum value of(x) occurs when .
(ii) Suppose that c is a positive real number.
Show that and deduce that .
You may assume that .
(iii) Suppose that the cubic equation x3 px2 + q x r = 0 has three positive
real roots. Use part (ii) to prove that p
3
27r.
(iv) Deduce that the cubic equation x3 2x2 +x 1 = 0 has exactly onereal root.
Question 8 continues on page 19
2
1
a bab
+ 2
a b cabc
+ + 3
3a b c
abc
a b
ab
+ +
+
3 23
3 2
2
3xa b= +
2
( )xa b x
abx
= + +
( )31
3
18
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Question 8 (continued)
The point P(a sec , b tan ) is a point on the hyperbola . The line
through P perpendicular to the x-axis meets the asymptotes of the hyperbola,
, at A (a sec , b sec ) and B (a sec , b sec )
respectively. A second line through P, with gradient tan , meets the hyperbola
at Q and meets the asymptotes at Cand D as shown. The asymptote
makes an angle with the x-axis at the origin, as shown.
(i) Show that AP PB = b2.
(ii) Show that and show that .
(iii) Hence deduce that CP PD depends only on the value of and noton the position ofP.
(iv) Let CP =p, QD = q and PQ = r.
Show that p = q .
(v) A tangent to the hyperbola is drawn at T parallel to CD. This tangent
meets the asymptotes at Uand Vas shown. Show that T is the midpoint
ofUV.
End of paper
1
2
1
2PDPB=
+( )
cos
sin
CPAP=
( )
cos
sin
1
x
a
y
b = 0
x
a
y
b
x
a
y
b = + =0 0and
x
a
y
b
2
2
2
21 =
B
AC
U
DV
QO x
T
y
P a b( sec , tan )
(b)
19
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STANDARD INTEGRALS
x dxn
x n x n
xdx x x
e dxa
e a
axdxa
ax a
axdxa
ax a
ax dxa
ax a
ax ax dx a ax
n n
ax ax
= +
=
=
=
=
=
+11
1 0 0
10
10
10
10
10
1
1
2
, ;
ln ,
,
cos sin ,
sin cos ,
sec tan ,
sec tan sec ,
, if
aa
a xdx
a
x
aa
a xdx
x
aa a x a
x adx x x a x a
x adx x x a
x x xe
+=
= > < >
+
= + +( )
=
0
1 10
10
1 0
1
2 21
2 2
1
2 2
2 2
2 2
2 2
tan ,
sin , ,
ln ,
ln
ln log ,NOTE : >> 0