SECTION I (50 marks)
Answer all the questions in this section in the spaces provided.
 An empty tank of capacity 18480 litres is to be filled with water using a cylindrical pipe of diameter 0.028 m. The rate of flow of water from the pipe is 2 m/s. Find the time in hours it would take to fill up the tank. (Take π = ^{22}/_{7}). (3 marks)
 The first term of a Geometric Progression (G.P) is 2. The common ratio of the G.P is also 2. The product of the last two terms of the G.P is 512. Determine the number of terms in the G.P. (3 marks)
 The expression ax^{2}  30x + 9 is a perfect square, where a is a constant. Find the value of a. (2 marks)
 Make x the subject of the formula y = bx (3 marks)
√cx^{2}  a  The figure below shows a circle and a point outside the circle
Using a ruler and pair of compasses, construct a tangent to the circle from P. (4 marks)  Four quantities P Q R and Sare such that P varies directly as the square root of Q and inversely as the square of the difference of R and S. Quantity Q is increased by 44% while quantities R and Sare each decreased by 10%.
Find the corresponding percentage change in P correct to 1 decimal place. (4 marks)  The figure below represents a prism ABCDEFGH of length 6 cm. The cross section BCFG of the prism is a trapezium in which GF = 11 cm, BC = 8 cm, BG = 5 cm and ∠GFC = ∠BCF = 90°
Calculate correct to 1 decimal place the angle between the line FA and the plane GFEH. (3 marks)  The cash price of a gas cooker is Ksh 20 000. A customer bought the cooker on hire purchase terms by paying a deposit of Ksh 10 000 followed by 18 equal monthly instalments of Ksh 900 each, Annual interest, compounded quarterly, was charged on the balance for the period of 18 months. Determinc, correct to 1 dccimal place, the rate of intcrcst per annum. (4 marks)
 The table below shows the values oft and the corresponding values of h for a given relation
t 1 2 3 4 5 6 7 8 h 8 4 2.7 2 1.6 1.3 1.1 1  On the grid provided, draw a graph to represent the information on the table given. (2 marks)
 Use the graph to determine, correct to 1 decimal place, the rate of change of h at = 3. (2 marks)
 The equation of a trigonometric wave is y = 4 sin (ax  70)º. The wave has a period of 180º.
 Determine the value of a. (1 mark)
 Deduce the phase angle of the wave. (1 mark)
 A point Q is 2000 nm to the West of a point P(40°N, 155°W). Find the longitude of Q to the nearest degree. (3 marks)
 A box contains 3 brown balls and 9 green balls. The balls are identical except for the colours. Two balls are picked at random without replacement.
 Draw a tree diagram to show all the possible outcomes. (1 mark)
 Determine the probability that the balls picked are of different colours. (2 marks)
 The figure below shows triangle XYZ.
Using a ruler and a pair of compasses locate point M is 2cm from line YX and is equidistant from lines YX and YZ. Measure length YM (3 marks)  The position vectors of points P, Q and Rare OP = 6123 +3k, OQ = 121  5j + 6k and OR = 8i3j+4k. Show that P, Q and R are collinear points. (3 marks)
 In a transformation an object of area x cm^{2} is mapped on to an image whose area is 13x cm^{2}
Given that the matrix of the transformation is find the possible values of x. (3 marks)  Find the area enclosed by the curve y=x^{2}+2x the straight lines x = 1,x= 3 and the xaxis. (3 marks)
SECTION II(50 mks)
Answer only five questions in this section in the spaces provided.
 Pump P can fill an empty water tank in 7½ hours while pump Q can fill the same tank in 11¼ hours. On a certain day, when the tank was empty, both pumps were opened for 2½ hours.
 Determine the fraction of the tank that was still empty at the end of the 2½ hours.(4 marks)
 Pump P was later opened alone to completely fill the tank. Determine the time it took pump P to fill the remaining fraction of the tank.(2 marks)
 The two pumps P and Q are operated by different proprietors. Water from the full tank was sold for Ksh 15 750. The money was shared between the two proprietors in the ratio of the quantity of water supplied by each.
Determine the amount of money received by the proprietor of pump P. (4 marks)
 A rectangular plot measures 50 m by 24 m. A lawn, rectangular in shape, is situated inside the plot with a path surrounding it as shown in the figure below.
The width of the path in x m between the lengths of the lawn and those of the plot and 2x m between the widths of the lawn and those of the plot. Form and simplify an expression in x for the area of the:
 lawn; (2 marks)
 path.(1 mark)
 The area of the path is 1½ times the area of the lawn.
 Form an equation in x and hence solve for X (4 marks)
 Determine the perimeter of the lawn. (3 marks)
 Form and simplify an expression in x for the area of the:
 In the figure below, points A, B, C, D and E lie on the circumference of a circle centre O. Line FAG is a tangent to the circle at A. Chord DE of the circle is produced to intersect with the tangent at F. Angle FAE = 30°, ZEDC = 110° and 2 OCB = 55°.
 Determine the size of:
 ∠ABC
 ∠AEB. (3 marks)
 Given that AB5 cm, ED 4.4 cm and FE = 2.5 cm. Calculate correct to 1 decimal place:
 the radius of the circle. (2 marks)
 the length of line AF. (2 marks)
 Determine the size of:
 The table below shows income tax rates in a certain year.
Monthly taxable income in Kenya shillings Tax rates 0  12 298 10% 12 299 23 885 15% 23 88635 472 20% 35 473  47 059 25% 47 060 and above 30%
Basic salary : Ksh 64 500
House allowance : Ksh 12 000
Kanini contributes 7.5 % of her basic salary to a pension scheme. This contribution is exempted from taxation. She is entitled to a personal tax relief of Ksh 1 408 per month.
Calculate: Kanini's monthly taxable income.(2 m arks)
 the tax payable by Kanini that month. (6 marks)
 Kanini's net pay that month. (2 marks)
 The vertices of the triangle shown on the grid are A' (3,3), B' (1,1) and C' (3,1).
Triangle A'B'C' is the image of triangle ABC under a transformation whose matrix is Find the coordinates of triangle A, B and C.(4 marks)
 Triangle A"B"C" is the image of triangle A'B'C' under a transformation matrix (2 marks)
Determine the coordinates of A", B" and C".  On the same grid provided, draw triangles ABC and A"B"C". (2 marks)
 Determine a single matrix that maps ABC onto A"B"C". (2 marks)
 Workers in a factory commute from their homes to the factory. The table below shows the distances in kilometres, covered by the workers.
Distance (km) 15 610 1115 1620 125 2630 Number of workers 3 6 t 7 4 2  Determine the value of and hence the standard deviation of the distances correct to 2 decimal places. (6 marks)
 Calculate, correct to 2 decimal places, the interquartile range of the distances. (4 marks)

 Complete the table below giving the values correct to 1 decimal place.
xº 0 30 60 90 120 150 180 210 240 270 300 330 360 y=2sin(¾x)2cos(¾x) 2 1.1 0 2 2.8 2 1.1 0 2 y= 1 + 2cos x 3 2 1 0 0.7 1 0 1 2.7 3  On the grid provided and using the same axis, draw the graphs of y= 2sin(¾x) 2cos(¾x) and y=1+2cos x for 0º ≤ x ≤ 360°. (4 marks)
 Using the graphs in part (b):
 find the values of x for which sin(¾x)= 1 + cos(¾x) (2 marks)
 determine the range of x for which 2sin(¾x)2cos(¾x)>1 + 2 cos x (2 marks)
 Complete the table below giving the values correct to 1 decimal place.
 A particle was moving along a straight line. The acceleration of the particle after t seconds was given by (4t13) ms^{2}. The initial velocity of the particle was 18 ms^{1}
 Determine the value oft when the particle is momentarily at rest. (5 marks)
 Find the distance covered by the particle between the time t = 1 second and t=3 seconds. (5 marks)
MARKING SCHEME
 Vol. of water geting to the tank in 1sec
= ^{22}/_{7} x 0.014^{2} x 2
= 0.001232 m^{3}
Time needed to fill tank
= 18.48
0.001232
= 15000 sec
= 4^{1}/_{6} hours  n^{th} term 2 x 2^{n1}
(n1)^{th} term = 2 x 2^{n2}
2 x 2^{n1 }x 2 x 2^{n2} = 512
2^{n1 }= 2^{9}
2n  1 = 9
n = 5  4 x a x 9 = (30)^{2}
a = 900
36
= 25  y^{2} = b ^{2}x ^{2}
cx^{2 } a
cx^{2 } y^{2}  ay^{2 }= b^{2}x^{2}
cx^{2 } y^{2}  b^{2}x^{2 }= ay^{2 }
x^{2 }(cy^{2 } b^{2}) = ay^{2 }
x = ± √ ay ^{2 }
cy^{2 } b^{2}
Locating centre O
⊥ bisector of OP
Arc showing the correct position of point of contact of circle and tangent
tangent drawn b utt P = k √Q
(R  S)^{2}
New value of Pafter changes in Q, R and S
= k √1.44Q
(0.9R  0.9S)^{2}
=1.481k √Q
(R  S)^{2}
= (1.481  1)100
Thus, P increases by 48.1% or 48.2%
The word increase is not necessary  Let point A' be the projection of point A on the plane GFEH
AA'= √(5^{2}  3^{2})
= 4
FA' = √(6^{2} + 8^{2})
= 10
Tanθ = ^{4}/_{10} = 0.4
θ =21.8º  Balance upon paying deposit:
= 20000  10000
= 10000
Amount Repaid
= 900 x 18
= 16200
Let r =rate of interest per annum
1 + ^{r}/_{400} =^{6}√1.62 = 1.084
r = (1.084  1)x 400
= 33.6% or 33.5% 

 Gradient = 0  27
6  3
= 0.9 ± 0.1


 360  180
a
a = 2  Phase Angle = 70º
 360  180
 Let θ = longitude difference between P and Q
θ x 60 cos 40 = 2000
θ = 2000
60 cos 40
= 43.51º
= 155 + 43.51 = 198.51°
Longitude of Q
= 360°  198.51°
161°E
180  18.51
= 161°E 

 P(Balls picked are of different colours)
= ^{3}/_{12} x ^{9}/_{11} + ^{9}/_{12} x ^{3}/_{11}
= ^{27}/_{132 }+ ^{27}/_{132}
= ^{54}/_{132 }
Accept ^{9}/_{22}

YM = (4 ± 0.1) cm
Angle bisector of ∠ XYZ
construction of a straight line 2 cm from and parallel to line XY
OW1 if point M is not marked
P is a common point
Points P, Q and R are collinear 3x^{2}  7(x  1)  ^{13x}/_{x} = 13
3x^{2}  7x  6 = 0
(3x + 2)(x  3) = 0
x = ^{2}/_{3} or x = 3
18  1^{1}/_{3}_{}= 16 ^{2}/_{3} sq. units
 Fraction of tank filled by pumps Pand Q in Ihr
= 1 + 1 = 2 + 4
7½ 11¼ 15 45
Fraction of tank filled by pumps PandQ in 2½hrs
= ^{2}/_{9} x ^{5}/_{2}
= ^{5}/_{9}
Fraction of tank still empty
= 1  ^{5}/_{9}
= ^{4}/_{9}  Time taken by pump P alone to fill ^{4}/_{9 }of the tank
= ^{4}/_{9 }÷ ^{2}/_{15}
= ^{4}/_{9 }x ^{15}/_{2}
= 3^{1}/_{3}hrs  Total time Pump P has pumped
= 2½ + 3^{1}/_{3}
= 5^{5}/_{6 }hrs
Fraction of tank delivered by pump P
= ^{2}/_{15 }x 5^{5}/_{6 }
= ^{7}/_{9}
Amount received by propriator of Pump P
= ^{7}/_{9 }x 15750
= Ksh 12 250
 Fraction of tank filled by pumps Pand Q in Ihr


 Area of lawn
= (50  4x)(24  2x)
= 1200  100x  96x + 8x^{2}
= 1200  196x + 8x^{2}  Area of path
= 50 x 24  (1200  196x + 8x^{2})
= 1200  1200 + 1960  8x^{2}
= 196x – 8x^{2}
 Area of lawn

 196x  8x^{2} = ^{3}/_{2}(1200  196x + 8x^{2})
= 1800  294x + 12x^{2}
= 20x^{2}  490x + 1800
= 2x^{2}  49x + 180 = 0
= (2x  9)(x  20) = 0
= x = 4.5 or x = 20  Length of lawn
= 50  4 x 4.5
= 32m
Width of lawn
= 24  2 x 4.5
= 15m
Perimeter of lawn
= 2(32 + 15)
= 94 m
 196x  8x^{2} = ^{3}/_{2}(1200  196x + 8x^{2})



 Size of ∠AEC
∠ABE  30°
(Angle in alternate segment)
∠CBE = 70º
(Opposite angle of a cyclic quadrilateral)
∠AEC  [180  (30+70)] = 80°
(Opposite angle of a cyclic quadrilateral)  ∠BOC = 1802x55  70°
∠BEC = 35°
Angle at the circumference is half angle at centre)
∠AEB  80  35° = 45°
 Size of ∠AEC

 Let radius of circle = R
2R = 5
sin 45°
R = 3.5 cm  AF = √2.5 x (2.5 + 4.4)
AF = √17.25
= 4.2 cm
 Let radius of circle = R


 Taxable income
= 64 500 + 12.000  ^{7.5}/_{100} x 64500
= Ksh 71662.50  Tax payable by Kanini
1st slab = 12798 x ^{10}/_{100} = 1229.80
2nd slab = 11587 x ^{15}/_{100} =1738.05
3rd slab = 11587 x ^{20}/_{100} = 2317.4
4th slab = 11587 x ^{25}/_{100} = 2896.75
5th slab = 24603 x ^{30}/_{100} = 7381.05
Total tax = 15563.05
Tax less relief
= Ksh 15563.05  1408
= Ksh 14 155.05  Total deductions
= 14155.05 + ^{75}/_{100} x 64 500
= 18992.55
Net income =( 64500 + 12000)  18 992.55
= 57 507.45
 Taxable income

 Inverse of transformation matrix
Coordinates of triangle ABC are A(3, 3), B(1,1) and C(5,3)  Coordinates of triangle A"B"C
Coordinates of triangle A'B'C' are A"(6, 3), B"(2,1) and C (6, 1)  ΔABC drawn
ΔA'B'C' drawn  Single matrix to map ABC onto A'B'C'
 Inverse of transformation matrix

Midpoint x f xf x^{2}f 3 3 9 27 8 6 48 384 13 t 13t 1352 18 7 126 2268 23 4 92 2116 28 2 56 1568 Σf = 22 + t Σxf = 331 + 13t Σx^{2}f = 7715
22 + t
Variance = √7715  14.5^{2}
30
= 46.92
Standard deviation = √46.92
= 6.85UCB 5.5 10.5 15.5 20.5 25.5 30.5 C.F 3 9 17 24 28 30
7
= 19.43
Q_{1} = 5.5 + 4.5 x 5
6
= 9.25
Interquartile range
Q3  Q1 = 19.43  9.25
=10.18

x 30º 90º 150º 210º 300º 330º 2sin(¾x)  2cos2sin(¾x) 1.1 2.6 2.6 1.1 1 + 2cos x 2.7 0.7 2
B1 for any 5
 When y=2
2sin(¾x)  2cos(¾x)= 2 then
sin(¾x) = 1 + sin(¾x)
x = 120º and x = 240º  87º < x < 273
± 2º
 When y=2

 v = ∫(4t  13)dt
= 2t^{2} 13t+ c
when t = 0, v = 18
18  2 x 0  13 x 0 + c
c = 18
v = 2t^{2}  13t + 18
When v0
2t^{2} 13t + 18 = 0
= (2t  9)(t  2) = 0
t = 4.5 or t = 2  Distance covered by particle
Area above x axis
^{2}_{1}∫(2t^{2}  13t + 18)dt
= [^{2}/_{3}t^{3}  ^{13}/_{2}t^{2} + 18t]^{2}_{1}
=[^{2}/_{3} x 2^{3}  ^{13}/_{2} x 2^{2} + 18 x 2]  [^{2}/_{3} x 1^{3}  13/2 x 1^{2} + 18 x 1]
=[^{16}/_{3}  26 + 36][^{2}/_{3}  ^{13}/_{2} + 18]
= 15^{1}/_{3}  12^{1}/_{6}
3^{1}/_{6}
Area below x axis
=[^{2}/_{3} x 3^{3}  ^{13}/_{2} x 3^{2} + 18 x 3]  15^{1}/_{3}
=[18  ^{117}/_{2} + 54]  15^{1}/_{3}
= 1^{5}/_{6}
Total area
= 3^{1}/_{6} + 1^{5}/_{6 }= 5m
 v = ∫(4t  13)dt
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