!nnc maths year 12 ch 11mathsbooks.net/new century year 12/11 revision.pdf · 2015-08-19 · 416...

REVISION

413

1111

Revision

Congratulations. If you are reading this page, then you have probably finished the General Mathematics course and are now preparing for your final exams. This chapter summarises and revises all of the topics covered in Years 11 and 12. It will concentrate mainly on work from the HSC Course, but content from the Preliminary Course will also be included because up to 30% of the HSC exam may test Preliminary work.

Remember the four stages in studying Maths:

1. Practise

your Maths: do the exercises to strengthen your understanding.

2. Rewrite

your Maths: revise your topic summaries.

3. Attack

your Maths: work on your weak areas.

4. Test

your Maths: practise on past exams and mixed review assignments.

A Practice HSC Exam (of 2 hours’ duration) is provided at the end of this book in addition to the four Practice Papers (mini-exams of 1 hour’s duration) after chapters 3, 6, 9 and 11.

This chapter revises the following topics:

12---

Measurement

n

Area and volume

n

The sine and cosine rules

n

Geometry of the Earth

Financial mathematics

n

Credit and loans

n

Long term investing

Algebraic modelling

n

Equations and functions

n

Functions and graphs

Data analysis

n

Statistical distributions

n

The normal distribution and correlation

Probability

n

Probability

FORMULAS LIST

Two pages of formulas will be provided with your HSC exam, listing the following:

Area of an annulus:

A

=

π

(

R

2

−

r

2

) Area of an ellipse:

A

= π

ab

Area of a sector:

A

=

π

r

2

Arc length of a circle:

l

=

2

π

r

Surface area of a sphere:

A

=

4

π

r

2

Simpson’s rule:

A

≈

(

d

f

+ 4

d

m

+

d

l

)

Volume of a cone:

V

=

π

r

2

h

Volume of a cylinder:

V

=

π

r

2

h

Volume of a pyramid:

V

=

Ah

Volume of a sphere:

V

=

π

r

3

Sine rule:

=

=

Area of a triangle:

A

=

ab

sin

C

Cosine rule:

c

2

=

a

2

+

b

2

−

2

ab

cos

C

or cos

C

=

θ360--------- θ

360---------

h3---

13---

13--- 4

3---

asin A------------ b

sinB------------ c

sinC------------ 1

2---

a2 b2 c2–+2ab

-----------------------------

!NNC Maths Year 12 Ch 11 Page 413 Wednesday, October 4, 2000 2:33 AM

414

NEW CENTURY MATHS GENERAL: HSC

Gradient of a straight line:

m

=

Gradient-intercept form of a straight line (equation of a straight line):

y

=

mx

+

b

Simple interest:

I

=

Prn

Compound interest:

A

=

P

(1

+

r

)

n

(

A

= final balance)

Future value of an annuity: A = M

Present value of an annuity: N = M or N =

Straight line depreciation: S = V0 − Dn

Declining balance depreciation: S = V0(1 − r)n

Mean of a distribution: = or =

z-score formula: z =

Probability of an event: P(event) =

AREA AND VOLUMEMEASUREMENT

vertical change in position horizontal change in position---------------------------------------------------------------------

1 r+( )n 1–r

----------------------------

1 r+( )n 1–r 1 r+( )n

---------------------------- A

1 r+( )n-------------------

xΣxn

------ xΣfxΣf--------

x x–s

-----------

number of favourable outcomestotal number of outcomes

----------------------------------------------------------------------------

Preliminary Coursen Metric units of measurementn Error in measurementn Significant figures, scientific notationn Repeated percentage changesn Areas of plane figuresn Sketching solid shapes and their netsn Volumes of solids: V = Ah; V = πr2h;

V = Ah; V = πr2h; V = πr3

n Surface arean Capacity and volume: 1 cm3 = 1 mL;

1 m3 = 1000 Ln Ratios: unitary method and dividing in a

given ration Similar figures and scale factorsn Scale drawings and building plans

13--- 1

3--- 4

3---

HSC Coursen Composite areasn Field diagrams

n Arc length of a circle: l = 2πr

n Area of a sector and annulus:

A = πr2; A = π(R2 − r2)

n Area of an ellipse: A = πab

n Simpson’s rule: A ≈ (df + 4dm + dl)

n Surface area of a cylinder (open and closed)

n Surface area of a sphere: A = 4πr2

n Volumes of composite solidsn Errors in area and volume calculations

θ360---------

θ360---------

h3---

1. Convert:(a) 3640 L to kL (b) 742 kg to g(c) 3.5 hours to minutes (d) 2.9 × 103 m to mm

2. Find (i) the absolute error and (ii) the percentage error of each measurement.(a) 8.5 m (b) 15 g(c) 2.35 mL (d) 2000 t (to the nearest 10 t)

Exercise 11-01: Measurement


REVISION 415

3. Find the areas, correct to 2 significant figures, of the following shapes.

4. Calculate the volume of each solid correct to 2 significant figures.

5. An offset survey of a park was conducted and the notebook entry is shown here. All measurements are in metres.(a) Draw a neat sketch of the park.(b) Find the area of the park.(c) Find the perimeter of the park to 2 significant figures.

6. A pizza with diameter 20 cm is cut into 8 equal slices.(a) Find the length (PQ) of the crust of 1 slice

correct to 1 decimal place.(b) Calculate the area of the slice correct to

2 significant figures.

7. What is the surface area of a can of peaches with the top removed? Answer correct to 2 significant figures.

8. Use two applications of Simpson’s rule to find the area of the land bounded by William Creek and the Oodnadatta Track. Answer to the nearest square metre.

(a) (b)

8 m

5 m

3 m

22 cm

15 cm

(b)

(c)

(a)

9 cm

13 cm

2 m1 m

30 cm30 cm

30 cm

1.5 m

2.7 m

5 m

0.8 m

P

K 5212598520

47 A

R

P

QR

PEACHES

12 cm

14 cm

William Creek

9.2 km 7.5 km 8.6 km 7.7 km 6.8 km

8 km 8 km 8 km 8 km

Oodnadatta Track


416 NEW CENTURY MATHS GENERAL: HSC

9. Find the surface areas of these closed solids.

10. The plan shows a three-bedroom house. Measurements are all in millimetres.

(a) What is the area of bedroom 1 in square metres (correct to 2 decimal places)?(b) How many internal hinged doors are there in the house?(c) What is the area of the proposed deck (to the nearest square metre)?(d) The bathroom, toilet and laundry are to be tiled. How many square metres of tiles

are needed? Answer to the nearest square metre.

11. A cube has a measured side of 4.2 m.(a) What is the absolute error of this measured value?(b) Between what two values could this measurement lie?(c) What is the largest possible volume of this cube?(d) What is the smallest possible surface area of the cube?

12. The radius of the Earth is approximately 6400 km. What is its surface area? Answer in scientific notation correct to 4 significant figures.

13. A lotto win of $5 million was divided between 4 people in the ratio 1: 3 : 2 : 4. What is the value of the largest share?

(a) (b)

(c)

500 mm

300 mm1400 mm

8.4 m

1.2 m

50 mm

200 mm

350 mm

3000 mm

50 mm

N

Living

Kitchen

Rumpus

Proposed deck

Bed 3 Bed 1

Bed 2

WC

LaundryBath

2775 2600 1550 750

131002400

100

2150

250 250 100 2501650

2502325

250

100 1002475

25755975

5475 2550

250 1006700

25039005900 2700

7200

33

00

25

01

00

10

00

10

02

50

24

00

15

25

40

010

09

00

84

25

20

25

25

00

30

25

45

0

25

03

30

02

50

10

0

69

25

94

25

Linen

!NNC Maths Year 12 Ch 11 16 Wednesday, October 4, 2000 2:33 AM

REVISION 417

14. At 4 pm, a tower 25 m high casts a 35 m shadow while a tree casts a shadow 12 m long.(a) What is the height of the tree (correct to

2 significant figures)?(b) If the diagrams were drawn to a scale of

1 : 50, what length would represent the tower’s shadow?

(c) At 9:30 am, the shadow of the tower is only 20 m. What is the length of the tree’s shadow at this time (to 2 significant figures)?

THE SINE AND COSINE RULESMEASUREMENT

35 m

25 m

12 m

Preliminary Coursen Pythagoras’ theoremn Right-angled triangle

trigonometry: the sine, cosine and tangent ratios

n Degrees and minutesn Finding missing sides and angles in

right-angled trianglesn Angles of elevation and depression

HSC Coursen Problems involving right-angled triangle

trigonometryn Problems involving maps and bearingsn Trigonometry with obtuse angles

n The sine rule: = =

n The cosine rule: c2 = a2 + b2 − 2ab cos C or

cos C =

n Finding missing sides and angles in non-right-angled triangles

n Problems involving the sine and cosine rules

n Area of a triangle: A = ab sin C

n Surveying: offset survey (field diagrams), radial (plane table and compass) surveys

asin A------------ b

sinB------------ c

sinC------------

a2 b2 c2–+2ab

----------------------------

12---

1. Test whether this triangle is right-angled.

2. A TV screen has a height of 30.4 cm and a diagonal of length 51 cm. Calculate its width correct to 1 decimal place.

Exercise 11-02: The sine and cosine rules

2 cm

9.9 cm

10.1 cm

51 cm 30.4 cm



3. A stairwell is inclined at 34° to the ground floor and has a horizontal length of 4.5 m. Graham wants to place a bookcase of length 1.45 m underneath the stairwell. What is the height h of the tallest bookcase that can fit underneath the stairwell? Write your answer correct to 2 decimal places.

4. Petersville (P) is 80 km due east of Queensfield (Q). Rossmore (R) is on a bearing of 055° from Queensfield and 300° from Petersville. Which diagram correctly illustrates this?

5. A hockey player is standing directly in front of the centre of the goal. He is told that he can score as long as he keeps within a 48° angle. What is his distance, d, from the goal line (correct to 2 decimal places)?

6. A vertical pole has a height of 3.5 m. Find the length of its shadow correct to 1 decimal place, when the angle of elevation of the sun is 50°.

7. Use the sine rule to find r in the diagram, to the nearest 0.1 m.

8. Jesse walked 3.3 km due south of camp, then turned and walked on a bearing of 129° until he was 5.5 km from camp. Calculate the bearing of Jesse from camp, to the nearest degree.

9. In the following questions, find θ (to the nearest degree) if it is obtuse.

(a) sin θ = 0.8064 (b) cos θ = − (c) tan θ = −18.6325

1.45 m

34°

h

4.5 m

A. B. C.

Q35° 30°

R

P80 km

Q55° 60°

R

P80 km

Q35° 60°

R

P80 km

d

3.6 m

48°

13 m

94°21′

52°47′r

N

3.3 km5.5 km

Camp

Jesse

129°

27---


REVISION 419

10. A pendulum of length 38 cm swings a horizontal distance of 24 cm.(a) Use the cosine rule to calculate the angle θ swept

by the pendulum, to the nearest minute.(b) Hence use the arc length formula

l = 2πr

to calculate the length of the arc traced by the pendulum correct to 1 decimal place.

11. Emad surveyed a block of land and drew the notebook diagram shown. Measurements are in metres.(a) Draw a neat sketch of the block.(b) Calculate the perimeter of the block, to the nearest

metre.(c) Calculate the area of the block.

12. Find the acute angle A that makes each statement true.(a) sin 163° = sin A (b) tan 142° = −tan A

13. A rhombus has sides of length 15 cm. Two adjacent sides make an angle 50°. Use the area formula A = ab sin C to calculate the area of the rhombus to 2 significant figures.

14. This is a radial survey of the field ABCD.(a) What is the size of ∠ DOC?(b) Hence calculate the length of DC (to the

nearest metre) using the cosine rule.

15. Two ships sail from the same port. One sails 20 M on a bearing of 140° while the other sails 24 M on a bearing of 200°. Calculate the distance between the ships, to the nearest 0.1 M.

16. At point A, Bethany observes the top of a control tower at an angle of elevation of 35°. She walks to B, 100 m closer to the tower, where the angle of elevation is 64°.(a) Explain why ∠ ATB = 29°.

(b) Hence show that TB = .

(c) Hence show that the height h of the tower is h = and evaluate h to the nearest metre.

θ

24 cm

38 cm

l

θ360---------

A

P 2514085300

50 R

K

12---

A

B

C

D

38 m 47 m84°

72°

90°

35 m

34 m

O

100 sin 35°sin 29°

---------------------------100 sin 35° sin 64°

sin 29°---------------------------------------------

C

T

A B

h

100 m35° 64°



GEOMETRY OF THE EARTHMEASUREMENT

HSC Coursen Latitude and longituden Arc length of a circle: l = 2πrn Great circle distancesn Nautical miles and knots: 1 M = 1.852 km; 1 knot = 1.852 km/hn Longitude and time differencesn International time zones

1. Match the following coordinates to the points illustrated on the diagram of the Earth.(a) (50°N, 0°) (b) (15°N, 0°)(c) (35°S, 50°E) (d) (15°N, 50°E)(e) (35°S, 0°) (f) (50°N, 50°E)

2. Dallas, USA has coordinates (32°N, 96°W) and Havana, Cuba has coordinates (23°N, 82°W).(a) State which city is closer to:

(i) the Equator (ii) the North Pole (iii) the Greenwich meridian(b) Calculate the difference in longitude between Dallas and Havana and state which

city is further east.(c) San Diego, USA is 21° due west of Dallas. What are the coordinates of San Diego?

3. State whether the circles drawn through the following points are great or small circles.(a) A and C (b) B and D(c) A and B (d) C and D

4. For the diagram in question 3, use the arc length formula l = × 2πr to calculate the

following circle distances, given that the radius of the Earth is 6400 km and the radius of the 32°S parallel of latitude is 5400 km. Express all answers to the nearest kilometre.(a) AB (b) CD (c) AC (d) BD

5. Port Moresby, Papua New Guinea (9°S, 147°E) and Wagga Wagga, NSW (35°S, 147°E) lie on the same meridian of longitude. Calculate, to the nearest kilometre, the shortest distance between the two cities.

θ360---------

Exercise 11-03: Geometry of the Earth

50°N

35°S

Q

T

P

15°N50° SR

U

Greenwichmeridian

Equator

10°W

B

C

A

D

40°W

32°S

θ360---------


REVISION 421

6. In India, the city of Calcutta is 6° south and 11° east of New Delhi, which has coordinates (28°N, 77°E). What are the coordinates of Calcutta?

7. (a) Do Baghdad, Iran (33°N, 44°E) and Islamabad, Pakistan (33°N, 73°E) lie on the same line of latitude or longitude?

(b) Is this line a great circle or small circle?(c) Calculate the distance between the two cities along this circle if the radius of the

circle is 5340 km.(d) Calculate the time difference between these two cities in hours and minutes.(e) If it is 3:50 pm in Baghdad, what is the local time in Islamabad?

8. Calculate in nautical miles the great circle distance between Quito, Ecuador (0°, 78°W) and Kampala, Uganda (0°, 32°E).

9. A plane flies along the 18°N parallel of latitude. (a) How many nautical miles is it from the Equator?(b) Convert this distance to kilometres given that 1 M = 1.852 km.

10. What distance (in kilometres) do you travel for each 1° along a great circle?

11. What is the local time in Darwin (12°S, 130°E) when it is 6 pm Tuesday in Greenwich?

12. A ship is sailing along the 120°E meridian.(a) How many nautical miles will it travel after covering 6° of latitude?

(b) What is its speed in knots if it takes 8 hours to travel this distance (correct to 1 decimal place)?

13. A ship’s local time is 8:20 am when GMT is 1:00 pm. What is its longitude position?

14. (a) Which states and territories observe Australian Eastern Standard Time (AEST)?(b) When it is 9:30 pm AEST, what is the time in:

(i) South Australia? (ii) Western Australia? (iii) Northern Territory?

15. A plane leaves Japan on Friday at 9 am and takes 6 hours to fly east to Hawaii.(a) When the plane crosses the International Date Line, what day does it become?(b) If Japan is GMT + 9 and Hawaii is GMT − 10, what is the local time in Hawaii when

the plane arrives there?

EQUATIONS AND FUNCTIONSALGEBRAIC MODELLING

13---

Preliminary Coursen Expanding algebraic expressionsn Solving linear equations, including

those involving algebraic fractionsn The linear function y = mx + bn The gradient and vertical interceptn Independent and dependent

variablesn Line of best fit

HSC Coursen Algebraic termsn Scientific notationn Equations involving powers and rootsn ‘Guess, check and refine’ method of solving

equations, e.g. (1.05)x = 2n Substituting into formulasn Equations and formulasn Changing the subject of a formulan Linear functions and linear modelsn Intersection of lines, ‘break-even’ points



1. Simplify these expressions.(a) 4xy − 3y + 2y + xy (b) 3kt + 40 − 2tk − 8 (c) 2b2 − 8b + 4 + 10b2

(d) 3p2 4 6p (e) (f) 4p2 ×

2. Expand and simplify these expressions.(a) 8(c + 7) − 3(c + 1) (b) 2(4b − 2) + 3(b − 4)(c) 5(w + 5) − 2(2w − 9) (d) 4h(h + 4) + 2(h + 10)

3. Express these numbers in scientific notation.(a) 85 600 (b) 0.000 004 (c) 2 900 000

4. Express these numbers in normal form.(a) 3.5 × 10−4 (b) 4.09 × 105 (c) 6 × 10−6

5. Evaluate these expressions, expressing the answers correct to 2 significant figures.

(a) (8.7 × 105) × (4.6 × 103) (b) (c)

6. The velocity V m/s required for a rocket to escape the Earth’s gravity is

V = where g = 9.8 m/s2 (gravitational acceleration) and r = 6.38 × 106 m (radius of the Earth). Calculate the escape velocity of the rocket in m/s correct to 3 significant figures.

7. Solve these equations.

(a) 8(2r − 5) = 12r + 10 (b) − =

(c) 5x2 + 4 = 324 (d) = 3

8. Heron’s formula for calculating the area of a triangle with side lengths a, b, c is

A = where s = (a + b + c)

(a) Use the formula to calculate the area of a triangle with sides 5 cm, 12 cm and 13 cm.

(b) Evaluate A if A = bh and b = 5, h = 12.

(c) What type of triangle is described in (a)? Justify your answer.

9. Make y the subject of the following equations.

(a) 2x = 150 − 2y (b) = (c) 3x =

10. The number of days, D, that fresh milk will keep if stored at a temperature of T°C is

D =

(a) Calculate how many days fresh milk will keep if stored at 1°C.(b) If a carton of milk lasted 5 days, at what temperature was it stored?

11. Solve these equations (to 1 decimal place) using a ‘guess, check and refine’ method.

(a) (1.5)x = 25.6 (b) (0.73)n = 0.08 (c) 3w = 7000

12. Washing removes 28% of a deep stain at each wash. After further washes, the percentage of the original stain that remains is given by the formula

P = 100(0.72)w where w is the number of washes.(a) How much (to the nearest percentage) of the original stain remains after 3 washes? (b) After how many washes will there be less than 20% of the original stain?

Exercise 11-04: Equations and functions

18a2

4ab----------- 7p

2------

3.7 10 4–× 6.53 10 7–×9.1 105×

---------------------------

2gr

2x5------ x

4--- 1

5---

6r3

s s a–( ) s b–( ) s c–( ) 12---

12---

12y

------ p60------ 10y 4+

6T 1+-------------


REVISION 423

13. Find the equation of the linear function represented by this table of values.

14. The maximum distance d m that a ball travels if thrown with velocity v m/s is

d =

where g = 9.8 m/s2. At what velocity was a ball thrown if it travelled a distance of 45 m?

15. Thanh-Lee is comparing the plans of two mobile phone companies. OzExpress has a monthly access fee of $5 and charges $0.75 per minute, while No-Tel has a monthly access fee of $15 and charges $0.35 per minute. The monthly costs C of these plans can be represented by the following linear functions:

OzExpress: C = 0.75t + 5No-Tel: C = 0.35t + 15

(a) Graph both functions on the same axes for values of t from 0 to 60.(b) If Thanh-Lee usually makes 45 minutes of calls each month, which plan is better for

her?(c) Use your graph to find the cost of making 45 minutes of calls under each plan.(d) Use your graph to find the duration of calls where both plans charge the same.(e) To what type of caller would you recommend:

(i) the OzExpress plan? (ii) the No-Tel plan?

FUNCTIONS AND GRAPHSALGEBRAIC MODELLING

n 7 10 11 18

d 16 10 8 −6

v2

g-----

Preliminary Coursen Rates, concentrations and

converting ratesn Direct linear variation y = kx and

its graphn Conversion graphs, stepwise

and piecewise linear graphs

HSC Coursen The linear function y = mx + bn The quadratic function y = ax2 + bx + cn Maximum and minimum values of a

quadratic functionn The cubic function y = ax3

n The exponential function y = b(ax)n Exponential growth and decay

n The hyperbolic function y =

n Applications of functions (algebraic modelling)

n Direct variationn Inverse variation

ax---

1. Classify each of these functions as being linear (L), quadratic (Q), cubic (C), exponential (E) or hyperbolic (H).(a) y = 4x3 (b) R = 7(2.1)t (c) R = 2s + 1

(d) y = (x − 4)2 (e) H = (f) T =

Exercise 11-05: Functions and graphs

x 4+2

------------ 2800n

------------



2. (a) What type of function is y = −2x2 + 2?(b) Graph y = −2x2 + 2, showing the x- and y-intercepts and the vertex.(c) What is the maximum value of y = −2x2 + 2?

3. The function M = 1.5(1.2)x describes the mass M kg of a baby orang-utan at age x months, for values of x from 0 to 6.(a) Calculate the mass of the orang-utan at:

(i) 3 months (ii) birth(b) By a ‘guess, check and refine’ method, find when the orang-utan will have a weight

of 3.5 kg. Answer correct to 1 decimal place.(c) Why do you think this function is not a good model for values of x greater than 6?

4. (a) What type of function is y = x3? (b) Graph y = x3.

(c) What is the value of y when x = 3?

5. At the 2000 Olympic Games, Ian Thorpe swam 400 m in 3 min 41 s. (a) Calculate his average speed in metres per second, correct to 2 decimal places.(b) How far would he travel (to the nearest metre) if he maintained this speed for 5 min?

6. What could be the equation of this graph?A. y = −x2 + 2 B. y = (x − 2)2

C. y = x2 − 2 D. y = x2 − 2x

7. Alan wants to drive from Sydney to Canberra, a distance of 288 km. His car’s petrol consumption rate is 11.4 L/100 km and petrol costs 86 cents/L. Calculate, to the nearest cent, the cost of petrol for the journey.

8. A rectangular playground is to be made using 24 m of fence wire.(a) If the width of the playground is W m, find a

formula for the length L in terms of W.(b) Hence show that the area, A, of the playground

is given by A = 12W − W2.(c) Graph A = 12W − W2. Use it to find the maximum possible area of the playground.(d) What are the length, width and shape of the playground that give maximum area?(e) Explain why the formula A = 12W − W2 is only valid for values of W from 0 to 12.

9. (a) What type of function is y = 4x?(b) Graph y = 4x. (c) What is the value of y when x = 1.5?

10. (a) What type of function is y = − ?

(b) Graph y = − , indicating any asymptotes.

(c) What is the value of y when x = −2.5?

11. Convert the speed of light, 3 × 105 km/s:(a) to m/s (b) to km/h

12. (a) What is the y-intercept of all exponential curves of the form y = ax?(b) What is the x-intercept?

13--- 1

3---

y

x

L

WPerimeter is 24 m.

5x---

5x---


REVISION 425

13. This step graph shows the cost of sending parcels of different masses. Maree wants to send two parcels of weight 1.5 kg and 0.8 kg to Julian. How much would she save if she sent them together as one parcel rather than separately?

14. The distance, D km, to the visible horizon is directly proportional to the square root of the observer’s height, h m, above sea level.(a) Write a formula for D in terms of h and a constant k.(b) Find k to 4 decimal places if, from a height of 2 m, the distance to the visible horizon

is 5 km.(c) Hence find the height at which the distance to the visible horizon is 40 km.

15. The intensity, I, of light under water drops to 40% of its previous value after each metre. This can be modelled by the function

I = 100(0.6)x

where x is the number of metres under cloudy water and I is the percentage of the original intensity of the light.(a) Complete a table of values for this function for values of x from 0 to 10, and draw a

graph to represent this function.(b) Find what percentage of the original intensity exists under 3.5 m of cloudy water:

(i) using the graph (ii) using the formula (correct to 2 decimal places)(c) Estimate the distance under water when the light intensity drops to half:

(i) using the graph (ii) using the formula and a ‘guess, check and refine’ method (to 1 decimal place)

CREDIT AND LOANSFINANCIAL MATHEMATICS

Cos

t ($)

Weight (kg)1 2 3 4

8

7

6

5

4

3

2

1

0

Preliminary Coursen Wages, salaries and overtimen Commission, piecework and royaltiesn Bonuses and allowancesn Household bills and budgetingn Income tax and GST

HSC Coursen Flat rate loansn Buying on termsn Reducing balance loan tablesn Loan repayment tablesn Comparing loansn Credit card payments



1. Use the tables below to answer the following questions.

(a) Gayle had a taxable income of $53 420 in the last financial year.(i) Calculate her income tax payable. (ii) What is her Medicare levy?

(b) Jayden had a gross income of $34 625. She made the following tax deductions:Work clothing $328 Car expenses $115Self-education $84 Books $45

(i) What is her taxable income? (ii) How much tax must she pay?

2. Softa ice-cream company employs these people. Overtime is paid at time and a half.

(a) What was Sue’s gross weekly pay (A)?(b) What was Drew’s gross weekly pay (B)?(c) How many overtime hours (C) did Kim work?

3. The graph shows the amount of GST payable in Canada for prices up to $100.(a) Use the graph to find the amount

of GST (to the nearest 10 cents) payable on goods worth:(i) $48 (ii) $95

(iii) $32(b) Use the graph to find the value of

goods (to the nearest $) if GST is:(i) $3 (ii) $6.50

(iii) $4.20

Taxable income Tax on this income

$1–$6000 Nil

$6001–$20 000 17 cents for each $1 over $6000

$20 001–$50 000 $2380 + 30 cents for each $1 over $20 000

$50 001–$60 000 $11 380 + 42 cents for each $1 over $50 000

$60 001 and over $15 580 + 47 cents for each $1 over $60 000

Taxable income Medicare levy

$1–$13 389 Nil

$13 390–$14 474 20 cents for each $1 over $13 389

$14 475 or over 1.5% of whole taxable income

Weekly wages

Name Pay rate, $P per hour

Normal hours worked per week, N

Overtime hours, A

Gross weekly pay, $W

Kelly $14.20 25 0 $355

Sue $19.50 40 3 A

Drew $19.50 38 2 B

Kim $21.30 35 C $905.25

Exercise 11-06: Credit and loans

20 60 80 100Cost of item, p ($)

7

6

5

4

3

2

10

GS

T o

f 7%

($)

7% GST in Canada

40


REVISION 427

4. The Ozcard monthly credit card statement is shown here for Mr T. Rex, who has an interest-free period of 45 days.

(a) How much was paid by Mr Rex and when did he pay this?(b) What was the total of his purchases during this statement period?(c) What is the due date for payment?(d) If Mr Rex does not make his payment until 15 June 2000, how much interest will he

be charged on his purchases made during this statement period?

5. National Park workers are paid $19.80 per hour and get extra allowances for unfavourable conditions as shown in the table.

(a) Paulo worked a 35-hour week with 6 hours of these spent firefighting and 2 hours

spent working at a height of 25 m. What was his weekly pay?(b) Tuncil worked a 40-hour week with 5 hours of these working at a height of 22 m and

2 hours doing dirty work. How much did he earn that week?

6. The table shows the monthly repayment necessary to pay off a loan of $1000

What is the monthly repayment if you obtain a loan of:(a) $1000 for 3 years at 13% p.a.? (b) $8600 for 4 years at 10% p.a.?(c) $3275 for 2 years at 12% p.a.?

Type of work Additional payment per hour

Firefighting $19.80

Working at a height over 20 m $1.50

Dirty work $0.80

Monthly repayment to pay off a loan of $1000

Annual interest rate (%)

Term of loan

1 year 2 years 3 years 4 years

10 87.83 46.06 32.18 25.27

11 88.27 46.50 32.63 25.73

12 88.72 46.94 33.08 26.20

13 89.16 47.39 33.54 26.66

14 89.61 47.83 33.99 27.14

15 90.05 48.28 34.45 27.61

OZCARD Mr T. Rex Statement for period 16/04/00 to 15/5/00

Opening balance 230.70

Date Transactions

16.04.00 DON DREW MENSWEAR 164.4007.05.00 PAYMENT RECEIVED THANK-YOU 230.7010.05.00 ZORBA’S TAVERN 95.6012.05.00 HARDWARE HOUSE 112.50

Closing balance 372.50

Account number Credit limit Available credit Annual % rate Monthly % rate

123-456-7890 3000.00 2628.50 22.5% 1.875%

Payment due date Past due Minimum payment due Date paid Amount paid

30/05/00 15.00

12---



7. Employees received a bonus for exceeding a company’s production targets. If 40% of $847 000 profit was shared between the 720 employees, how much did each employee receive? Answer to the nearest dollar.

8. The graph shows the progress of a loan for fortnightly and monthly repayments.(a) What is the amount borrowed?(b) How long will it take to repay the loan

making fortnightly repayments?(c) Describe in 1–2 sentences the benefits

of fortnightly repayments versus monthly repayments.

9. The table shows the monthly repayment for various amounts borrowed over 25 years.

Find (i) the total amount repaid and (ii) the total interest paid for a loan over 25 years of:(a) $40 000 at 9% p.a. (b) $100 000 at 8% p.a. (c) $10 000 at 8.5% p.a.

10. Tammy buys a stereo for $1800 on interest-free terms over 2 years. If she pays 20% deposit, what is her monthly repayment?

11. Lola borrowed $200 000 to purchase her first apartment. The bank offered to lend her the money at 8% p.a. with monthly repayments of $1400.(a) Copy and complete the table showing the progress of her loan for the first 6 months.

(b) How much had she paid off the principal after 6 repayments?(c) How much interest did she pay:

(i) in the first 3 months?(ii) in the next 3 months?

Monthly repayment of loans over 25 years

Amount of loan ($)

Interest rate p.a.

8% 8.5% 9% 9.5% 10%

5 000 39 40 42 44 45

10 000 77 81 84 87 91

20 000 154 161 168 175 182

30 000 232 242 252 262 273

40 000 309 322 336 349 363

50 000 386 403 420 437 454

100 000 772 805 839 874 909

No. of months, n Principal, $P Interest, $I $(P + I ) $(P + I − R)

1 200 000 1333.33 201 333.33 199 933.33

2 199 933.33 1332.89 201 266.22 199 866.22

3

4

5

6

Loan

am

ount

($)

100 000

75 000

50 000

25 000

0

Years4 8 12 16 20 24 28

Monthly

Fortnightlyrepayment

repayment


REVISION 429

12. Simone borrowed $8200 to buy a jet ski. She took out a flat rate loan at 15% p.a. interest and repaid it in weekly instalments over 3 years.(a) What was her weekly instalment?(b) How much interest did she pay altogether?

13. Ozibank’s fees and charges for home loans are shown in the table.

Mr and Mrs Kettle obtained a variable rate home loan of $360 000 from Ozibank.(a) What was their application fee for the loan?(b) How much stamp duty did they pay on the amount borrowed?(c) What is their loan maintenance fee for the first 3 months?

14. The table shows the progress of a loan with an annual repayment and interest compounded annually.

(a) What is the interest rate per annum?(b) How much will be owing at the beginning of the 4th year?(c) What will be the annual interest in the 4th year?(d) How much will have been paid off the principal at the end of 4 years?(e) How much will be owing at the beginning of the 5th year?

15. The Dragon Credit Union published the following table for flat rate loans. Carole borrowed $15 000 over 5 years.(a) How much does she repay per month?(b) What is the total amount to repay the loan?(c) What is the interest charged?(d) Calculate the flat interest rate per annum.

Ozibank home loan fees and charges

Application fee (variable rate) $800

Application fee (standard/combination) $500

Stamp duty 0.4% of amount borrowed and3% of purchase price

Loan maintenance fee (highest balance):up to $10 000

$10 001–$15 000$15 001–$20 000$20 001–$30 000

over $30 000

Charge per month:$8

$10$13$15$18

YearLoan amount

at start of year ($)

Annual interest ($)

Loan amount plus

interest ($)

Annual repayment ($)

Balance at end

of year ($)

1 100 000.00 7000.00 107 000.00 8581.00 98 419.00

2 98 419.00 6889.33 105 308.33 8581.00 96 727.33

3 96 727.33 6770.91 103 498.24 8581.00 94 917.24

Years to repay loan

Monthly repayment (per $1000)

1 $91.25

2 $49.58

3 $35.69

4 $28.75

5 $24.58



LONG TERM INVESTINGFINANCIAL MATHEMATICS

Preliminary Coursen Simple interest: I = Prnn Compound interest: A = P(1 + r)n;

I = A − Pn Interest tables and graphsn Account fees and chargesn Investing in sharesn Inflation and appreciation

HSC Coursen Future value of an annuity:

A = M

n Present value of an annuity:

N = M or N =

n Annuity tablesn Loan repaymentsn Straight line method of depreciation:

S = V0 − Dnn Declining balance method of depreciation:

S = V0(1 − r)n

n Depreciation graphs and tablesn Calculating tax deductions

1 r+( )n 1–r

----------------------------

1 r+( )n 1–r 1 r+( )n

---------------------------- A

1 r+( )n-------------------

1. Find the simple interest earned on the following investments.(a) $15 400 at 6% p.a. for 8 years(b) $8240 at 5.6% p.a. for 3 years(c) $6320 at 1% per month for 2 years

2. Calculate (i) the final amount and (ii) the compound interest earned for the following investments.(a) $45 600 at 7% p.a. for 5 years(b) $23 500 at 8% p.a. compounded quarterly for 10 years(c) $8760 at 9.5% p.a. compounded fortnightly for 3 years

The table gives information about share prices for eight companies.(a) What is the market price (as shown by the last sale) of TAB shares?(b) If the Qantas dividend was paid today, how much would the dividend be for a

shareholder with 2000 shares?(c) What is the lowest price in the last year for Angus and Coote shares?

3. 52 week

Company Last sale Move Buy SellDiv.cents

Div. yield %High Low

12.29 8.53 AGL 8.70 −9 8.68 8.70 45.00 5.174.00 2.35 Angus and Coote 3.80 3.21 3.80 20.00 5.26

1.75 1.25 Just Jeans 1.28 +3 1.24 1.28 10.00 7.81

5.40 2.38 Qantas 4.93 +19 4.95 4.76 19.00 3.85

5.93 4.15 Seven Network 4.45 +6 4.45 4.50 20.50 4.61

1.91 0.95 Sydney Gas 1.468 +1.8 1.47 1.48 4.00 2.72

3.58 2.63 TAB 2.66 −1 2.65 2.66 9.00 3.38

12.11 9.15 Westpac 9.548 −0.2 9.60 9.51 45.00 4.71

Exercise 11-07: Long term investing


REVISION 431

4. A grandmother puts $100 into her granddaughter’s account on her 12th birthday theneach year up to and including her 18th birthday. If the account earns 8% p.a. interest,complete the table to find how much is in the account on her 18th birthday.

5. The Overflow Oil Company set up a fund to pay $1000 at the end of each year to the employee who had suggested the best improvement to work conditions. How much (to nearest dollar) should the company invest now at 6% p.a. to achieve this for 10 years?

6. Layla contributes $500 per month for 8 years to an account earning 6.5% p.a. compounded monthly.(a) What amount (to nearest dollar) will she have in the account at the end of 8 years?(b) How much interest will she earn in the 8 years?(c) What single sum of money could she invest now at 6.5% p.a. compounded monthly

to achieve the same result?

7. Fred invested $10 000 in an account earning 7.2% p.a. for 3 years. At the end of 3 years he deposited another $5000 in the account. If the interest rate then increased to 7.5% p.a., how much did he have in the account at the end of 6 years?

8. Soumaya and Katerina both started working at age 20. Soumaya invested $1000 each year at 10% p.a. interest for the next 20 years. Katerina made no investment for the first 10 years but then invested $2000 per year at 10% p.a. interest for the next 10 years.(a) How much did each girl deposit into her own account over 20 years?(b) What was the value of Soumaya’s 20-year investment?(c) What was the value of Katerina’s 10-year investment?(d) What advice on investment could you give a person starting work at age 20, based

on these answers?

9. Find the difference in interest when $1000 is invested for 12 years at 5.5% p.a.:(i) simple interest rate (ii) interest compounded annually

10. Johann and Yoko were given two options: take $50 000 in cash now or $5000 per year for the next 12 years. If the current interest rate is 8%p.a., which is the better option? Why?

11. Craig bought a new truck in 1996 for $54 000. The table shows the value of the truck at the end of each year for the next 5 years.(a) What is the depreciation rate of his truck?(b) Use the declining balance method of

depreciation and this rate to predict the value of Craig’s truck when it is 12 years old.

Age Balance at start of year ($) Interest ($) Deposit ($) Balance at end

of year ($)

12 0 0 100.00 100.00

13 100.00 8.00 100.00 208.00

14 208.00 16.64 100.00 324.64

15 324.64 25.97

16

17

18

Age (years) Value ($)

1 45 900

2 39 015

3 33 163

4 28 189

5 23 961



12. A vehicle has a current value of $20 000. Work out which calculation gives the better trade-in value after 5 years:

(i) straight line method of depreciation at $2000 p.a. or(ii) declining balance method of depreciation at 20% p.a.

The table shows the progress of an annuity with an annual contribution of $1.(a) Find the missing values in cells D8, C9, D9.(b) What would be the amount at the end of 5 years if the annual payment were:

(i) $1000? (ii) $3800?(c) What lump sum invested for 5 years at 8% p.a. will grow to $6.34 in 5 years? Give

your answer to the nearest cent.

14. (a) The graph shows the decreasing value of a bulldozer as it depreciates over 10 yearsat 15% p.a. From the graph:(i) what was the salvage value of

the bulldozer after 5 years?(ii) by how much did it depreciate

in the 4th year?(iii) how long did it take to

depreciate to half its initial value?

(b) Use the declining balance formula for depreciation to predict the value of the bulldozer when it is 15 years old.

15. The table shows the value of a pottery kiln, bought new for $15 000, at the end of each year for the first 6 years of its life.(a) How much is the kiln worth at the end of

3 years?(b) What is the amount of depreciation in the 4th

year?(c) What is the declining balance rate of

depreciation of the kiln?(d) Plot the values on graph paper and draw the

curve of depreciation.(e) What is the vertical intercept and what does it

represent?(f) After which year will the value fall below $1000?

(Hint: Use a ‘guess, check and refine’ method.)

13. A B C D E

1 Annuity table

2 Annual payment $1

3 Interest rate 8%

4

5 Year Payment ($) Amount at start of year ($) Interest ($) Amount at end of year ($)

6 1 1.00 1.00 0.08 1.08

7 2 1.00 2.08 0.17 2.25

8 3 1.00 3.25 3.51

9 4 1.00 4.87

10 5 1.00 5.87 0.47 6.34

2 4 6 8 10Time (years)

120 000

100 000

80 000

60 000

40 000

20 000

0

Val

ue (

$)

Depreciation of bulldozer

Time (years) Value ($)

0 15 000

1 12 750

2 10 838

3 9 212

4 7 830

5 6 556

6 5 573


REVISION 433

STATISTICAL DISTRIBUTIONSDATA ANALYSIS

Preliminary Coursen Interpreting and constructing graphsn Types of data: categorical versus

quantitative (discrete, continuous)n Types of samples: random, systematic,

stratifiedn Frequency histograms and polygonsn Dot plots, stem-and-leaf plots, radar

charts, box-and-whisker plotsn Quartiles, deciles and percentilesn The population and sample standard

deviations: σn and σn − 1 respectivelyn Five-number summary: lower extreme,

lower quartile, median, upper quartile, upper extreme

n Cumulative frequency histogram and polygon: median and interquartile range

HSC Coursen The mean: = or =

n The median and moden The range, interquartile range and

standard deviationn Features of a statistical display: shape,

skewnessn Investigating the effect of outliersn Comparing data sets: double stem-and-

leaf plots, box-and-whisker plotsn Radar charts and area chartsn Two-way tablesn Multiple displays

xΣxn

------ xΣfxΣf--------

1. Classify the data as categorical, quantitative and discrete, or quantitative and continuous.(a) weights of gym members(b) weights of gym members measured to the nearest kilogram(c) colour of a person’s hair(d) religious denomination(e) names of five favourite movies(f) number of movies seen in the last year

2. The swim times (in minutes) for 6 triathletes were:

(a) What is the mean swim time?(b) What is the standard deviation of swim times?(c) If Lynne increased her time by 2 minutes to 34 minutes, what effect would this have

on the mean and standard deviation?(d) If all triathletes increased their times by 2 minutes, what effect would this have on

the mean and standard deviation?

3. The population of a country town has twice as many women as men. (a) When surveying this population, what type of sample would be the most

appropriate: systematic, stratified or random? Why?(b) If there are 200 women and 100 men in this town and a sample of 45 were selected,

how many women should the sample include?

4. A questionnaire was designed to survey people’s drinking habits. Design three questions to find out whether a person drinks alcohol, how frequently and how much.

Carolyn Jane Margaret Nancy Lynne Rosemary

28 30 29 35 32 26

Exercise 11-08: Statistical distributions



5. The cumulative frequency polygon shows the speeds of motorists when passing through a school zone.

(a) How many motorists were observed?(b) What was the median speed of the motorists?(c) How many motorists were travelling at 50 km/h or less?(d) How many motorists were observed travelling at over 60 km/h?(e) The point (40, 10) is a point on this graph. What do the coordinates represent?

6. The resting pulse rates (beats/minute) of gym members were taken and recorded in the table.

(a) Find the mean pulse rate and standard deviation of pulse rates for each group.(b) Find a five-number summary for each group and construct box plots on the same

diagram.(c) The fitter a person, the lower their resting pulse. Use the information you have found

to comment on the suggestion that ‘Women are generally fitter than men as they have a lower resting pulse’.

7. The area chart shows the number and predicted number of car air conditioners (CACs) using ozone-depleting hydrocarbons in eastern and southern Asia.

(a) Which country is expected to be the largest user of this type of CAC in 2010?(b) In 2030, how many of this type of CAC are predicted to be used in:

(i) China? (ii) India?(c) How many CACs are expected to be used in eastern and southern Asia in 2025?(d) What percentage of these are expected to be used in China?

Men 50 84 72 63 55 70 66 58 74 61

Women 62 70 86 58 60 64 78 72 80 56

20

15

10

5

020 4030

Speed (km/h)

Cum

ulat

ive

freq

uenc

y

50 6010

25

70 80

(no.

of m

otor

ists

)

CACs using ozone-depleting hydrocarbons

No.

of C

AC

s (m

illio

ns)

Year

700

600

500

400

300

200

100

01985 1990 1995 2000 2005 2010 2015 2020 2025 2030

India

China

Others


REVISION 435

8. The pie chart shows the breakdown of NSW tax dollars in 1998–99.(a) How much did the NSW government

collect in taxes in 1998–99?(b) What percentage of this was from

gambling and betting?(c) What percentage of the total taxation was

collected from stamp duties?(d) Give one example of a situation where

stamp duty is payable.(e) What is the sector angle (nearest degree)

that would represent the land tax sector?

9. The weekly sales (in dollars) at the Choo Choo café over a 15-week period are listed:9600 9500 12 000 12 400 8500 12 600 2600 15 4007900 11 400 7900 12 100 10 000 10 200 9900

(a) Determine the:(i) range (ii) median sales

(iii) interquartile range (iv) sample standard deviation(v) mean

(b) The café is situated near a railway station and there was a train strike one week. What were the likely sales for this week? Justify your answer.

10. The dot plots represent steel rods made by two machines in an engineering factory.

If rods have a diameter greater than 8.01 cm or smaller than 7.99 cm they are discarded.(a) How many rods from each machine would be discarded?(b) If one machine was to be replaced, which one should it be? Why?

11. The radar chart shows the moneyearned (in dollars) by Doug and Pete as part-time pizza delivery boys.(a) How much did Pete earn in

August?(b) How much did Doug earn in

September?(c) In which month(s) did Pete earn

more than Doug?(d) By comparing the area enclosed

by each line graph, decide who earned the most for the year.

NSW state taxation 1998–99

Source: NSW Auditor-General’s report to Parliament

Land tax$912m

Gamblingand betting$1419m

Petroleum, tobaccoand liquor licences$1977m

Other taxesand levies$2142m

Stamp duties$3939m

Payroll tax$3440m

Total: $13 829m

for 2000.

Rods produced by 2 machines

7.98 7.99 8.00 8.01 8.02 8.03cm

A

B

Jan

Feb

Mar

Apr

May

Jun

Jul

Aug

Sep

Oct

Nov

Dec1000

500

0

Doug and Pete

750

Doug’s

Pete’s earnings in $

earnings in $



12. The weekly repair bills over 1 year for a photocopier in a large TAFE college were analysed and a grouped frequency distribution table was prepared.(a) Copy the table and add a column for the class

centres.(b) Use your calculator to calculate the mean

weekly repair bill.(c) What is the standard deviation of repair bills?(d) Draw a grouped frequency histogram and

polygon and clearly label each one.

13. The diagrams show the age distribution of road user casualties.

(a) Comment on the shape of the distributions of driver and passenger casualties, mentioning skewness, clustering and any outliers.

(b) At what age are you most likely to be injured in a road accident if you are:(i) a driver? (ii) a passenger?

(c) Comment on the shape of the distribution of pedestrian casualties.(d) If you were running a road safety campaign to help lower the number of casualties

on our roads, whom would you target and why?

14. The waiting times (in minutes) for 20 patrons to purchase tickets at two cinema complexes were recorded. The double stem-and-leaf display shows the results.(a) What is the range of waiting times at

Fine Flicks?(b) What is the median waiting time at Movie Magic?(c) One time is missing from Fine Flicks. Give a possible value for the missing time.

Weekly bill ($) Frequency

300–,350 4

350–,400 7

400–,450 7

450–,500 10

500–,550 11

550–,600 6

600–,650 4

650–,700 3

52

No.

of

Ages

600

400

200

010 20 30 40 50 60 70 80 90 100

casu

altie

sN

o. o

f

Ages

200

010 20 30 40 50 60 70 80 90 100

casu

altie

sN

o. o

f

Ages

400

200

010 20 30 40 50 60 70 80 90 100

casu

altie

s

Drivers

Passengers

Pedestrians

Movie Magic Fine Flicks

6 5 3 2 28 7 6 5 3 1

7 6 4 3 3 2 14 0

0123

2 4 5 60 2 4 6 7 8 8 91 2 4 5 53 3


REVISION 437

(d) A patron is selected at random from Movie Magic. What is the probability that this person waited more than 10 minutes for tickets?

(e) At which cinema complex would you have a shorter wait? Justify your answer.

15. (a) Describe in 1–2 lines what the graph isshowing.

(b) What is the depth of the creek at 9 am?(c) At what time(s) is the depth 6 m?(d) A bridge is 12 m above the creekbed.

What is the distance between the bridge and the water level at 4 pm?

(e) A boat has a mast that reaches 5 m above the water level. What is the earliest time that it can pass under the bridge?

THE NORMAL DISTRIBUTION AND CORRELATIONDATA ANALYSIS

HSC Coursen The normal distributionn Properties of the normal distributionn Percentages of scores in a normal distribution within one (68%), two (95%) and three

(99.7%) standard deviations of the mean

n z-scores: z =

n Comparing z-scores of different normal distributionsn Scatterplotsn Correlationn Lines of best fit: the median regression linen Making predictions

1. A machine produces steel pins with length approximately normally distributed with a mean of 2 cm and a standard deviation of 0.05 cm.(a) What percentage of pins will have a length:

(i) greater than 2.05 cm?(ii) less than 2.05 cm?(iii) between 1.95 cm and 2.05 cm?(iv) between 2 cm and 2.1 cm?

(b) If 500 000 pins are produced per year and those with a length more than 3 standard deviations from the mean are rejected, how many pins are rejected?

2. Brightalonga Light Company guarantees that its lightbulbs last longer than 1000 hours. The lifetime of the bulbs is normally distributed with a mean of 1500 hours and a standard deviation of 250 hours. What percentage of bulbs will not satisfy the guarantee?

10

5

0

Time9 am noon 3 pm 6 pm

Dep

th (

m)

6 am

Depth of Coopers Creek

x x–s

-----------

Exercise 11-09: The normal distribution and correlation



3. Woody’s timber yard wanted to cut down on wastage. It investigated the length of offcuts of skirting board and found the lengths to be approximately normally distributed with a mean of 30 cm and standard deviation of 10 cm. What percentage of offcuts were:(a) greater than 50 cm long?(b) between 10 cm and 20 cm long?(c) between 20 cm and 50 cm long?(d) less than 5 cm long?

4. The table shows the net weight for 1 kg packets of washing powder.

(a) Complete the table if the distribution of net weight has a mean of 1000 g and a standard deviation of 20 g.

(b) What percentage of packets will have a net weight:(i) greater than 1000 g?(ii) between 940 g and 980 g?(iii) between 980 g and 1020 g?

5. In a History test, Matilda was given a z-score of 1.8 and Blinky was given a z-score of −2.5.(a) Who did better in the test? Justify your answer.(b) If the mean mark was 65 and the standard deviation was 12, calculate Matilda and

Blinky’s marks (to the nearest whole percentage).

6. Sweets are put into 50 g packets. The machine that performs this task is set to a mean mass of 51 g with a standard deviation of 1.5 g.(a) Complete the table.

(b) What percentage of packets will have a mass:(i) more than 51 g?(ii) less than 54 g?(iii) between 48 g and 54 g?(iv) more than 46.5 g?(v) between 52.5 g and 55.5 g?

7. The heights of a group of primary school children are normally distributed with a mean of 120 cm and a standard deviation of 10 cm. (a) Find the z-scores (correct to 1 decimal place if necessary) for the following heights:

(i) Kip 110 cm (ii) Trish 1.4 m(iii) Pippi 960 mm (iv) Jimbo 128 cm

(b) Sketch a standard normal curve and mark the position of each z-score.

8. Batteries were tested and the life of each was recorded. They were found to be approximately normally distributed with a mean of 30 hours and a standard deviation of 6 hours. What percentage of batteries would you expect to last:(a) greater than 42 hours?(b) between 18 and 48 hours?(c) less than 24 hours?

Net weight (g) 940 960 980 1000 1020

z-score 0

Mass (g) 46.5 48 49.5 51 52.5 54 55.5

z-score 0


REVISION 439

9. The table gives statistics for the red blood cell counts for males and females.

(a) What percentage of males have a red blood cell count:(i) greater than 6.1? (ii) between 4.7 and 6.1? (iii) less than 5.05?

(b) What percentage of females have a red blood cell count:(i) greater than 5.7? (ii) between 4.2 and 5.4? (iii) less than 4.2?

10. In a university study a correlation was found between students’ assignment marks and their test marks. If the correlation coefficient was calculated to be 0.82, what conclusion can you draw?

11. The correlation coefficient between the daily maximum temperature and the number of ice-creams sold was found to be −0.1. What conclusion can you draw?

12. Give an example of two variables with a strong positive correlation but where the relationship:(a) is a causal one (b) is not a causal one

13. The heights and weights of 12 students are shown in the table.(a) Plot each pair of values on a scatterplot.(b) Is there a linear pattern to the data?(c) What conclusion can you draw about

people’s height and weight?

14. The cost of advertising and profit at Connie’s Cafe were recorded for 6 months.

(a) Plot the data on a scatterplot and construct the median regression line.(b) Find the equation of this line.

Mean Standard deviation

Male 5.4 0.35

Female 4.8 0.3

Month Cost of advertising ($) Profit ($)

January 640 2100

February 780 2700

March 940 4600

April 980 4300

May 700 3300

June 890 3500

Height, h (cm) Weight, w (kg)

165 55

185 80

170 61

175 58

180 75

177 64

172 57

176 74

182 69

180 70

166 62

174 65



15. The number of employees (N) in a small factory and the output of palm computers (C) per month were found to have a high correlation. Data was plotted and the equation of a line of fit was found to be

C = 6.7N + 13.8(a) How many palm computers were made when there were:

(i) 20 employees? (ii) 10 employees?(b) Is it possible to predict the output for 1000 employees from this equation? Give

reasons for your answer.

PROBABILITYPROBABILITY

Preliminary Coursen The language of probabilityn Outcomes and sample spacesn Multistage eventsn Experimental probabilityn Theoretical probability:

P(event) =

n Complementary events:

P( ) = 1 − P(E)

number of favourable outcomestotal number of outcomes

----------------------------------------------------------------------------

E~

HSC Coursen The multiplication rule for countingn Tree diagramsn Counting arrangementsn Counting unordered selectionsn Counting ordered selectionsn Probability tree diagramsn Expectationn Probability simulationsn Probability in testing

1. An Internet password is made up of 5 alphanumeric characters (letters or numbers): for example, LUV17. How many 5-character passwords are possible?

2. A jar of jellybeans contains 4 pink, 7 green, 6 yellow, 4 white and 4 black. If 1 jellybean is selected at random, what is the probability that it is:(a) pink or yellow? (b) not white? (c) black, yellow or white?(d) not red? (e) blue?

3. A matchbox is tossed 20 times. There are three possible sides that can face upwards: a flat side (F), a long side (L) and a short side (S). The following results were obtained:

(a) What is the experimental probability that a matchbox lands with a flat side up?(b) Why do you think the probability of the matchbox landing on the flat side is

greatest?(c) What is the experimental probability that a matchbox lands with a short side up?(d) Does this mean that it is impossible for the matchbox to land with a short side up?

Justify your answer.(e) What is the experimental probability that a matchbox does not land flat side up?

Outcome Frequency

Flat 16

Long 4

Short 0

Exercise 11-10: Probability

LS

F


REVISION 441

4. Explain what this formula means:P( ) = 1 − P(E)

5. The numbers 1, 3, 7 and 8 are written on separate cards and placed in a box. Two cards are selected in order at random to form a 2-digit number. Draw a tree diagram to list all possible outcomes, then calculate the probability that the number formed:(a) is 81 (b) is odd(c) contains 7 (d) is greater than 30

6. In the Braille alphabet, characters are represented by a cell of 1 to 6 raised dots printed in 2 columns. For example, the cell for N is shown. Using this system, how many different cells are possible?

7. Andre has 3 books stacked on his desk: an Ancient History sourcebook, a Biology text and a Computing dictionary. (a) In how many different ways can they be stacked?(b) List the arrangements.

8. The security section of a multilevel carpark is staffed by a team of 3 security guards working in shifts. If the carpark employs a total of 6 guards, how many different security teams are possible?

9. In a simplified lotto game, 4 numbers are chosen from 1 to 20. What is the probability of winning this game?

10. Three students are selected at random from a group of 3 boys and 4 girls.(a) How many different selections are possible?(b) How many different ways are there of selecting 2 boys and one girl?(c) Hence, what is the probability of selecting 2 boys and one girl?

11. In a Powerball lotto game, 5 balls are chosen from one barrel containing the numbers 1 to 45, while the sixth ball (the ‘powerball’) is selected from another barrel containing the numbers 1 to 45.(a) How many possible selections of 5 balls from the first barrel are there?(b) How many possible selections of 1 ball from the second barrel are there?(c) Hence, how many Powerball combinations are possible?(d) What is the probability of winning Powerball from a single entry?

12. A lie detector was tested on a number of true and false statements, with the results shown below.

(a) How many statements were tested?(b) How many statements were diagnosed as being false?(c) What percentage of test results were inaccurate?(d) How many statements were diagnosed as being true?(e) What is the probability that a statement diagnosed as being true was actually true?

Test results

Accurate Not accurate Total

True statement 41 4 45

False statement 27 2 29

Total

E~



13. The probability of an 85-year-old person dying this year is 0.1164. If there are 308 250 85-year-olds in Australia, how many of them can be expected to die this year?

14. A box contains 12 hard-centred chocolates and 8 soft-centred chocolates. Nha draws 3 of them out at random. Calculate the probability that she chooses:(a) 3 hard-centred chocolates(b) 1 hard-centred chocolate(a) at least 1 hard-centred chocolate and 1 soft-centred chocolate

15. Rukshana rolls a die in a game of chance that costs 20c a play. She wins $1 every time she rolls a 6, 50c for rolling a 5, and nothing otherwise. (a) Calculate Rukshana’s financial expectation for this game.(b) Is this game fair? Justify your answer.

16. There are 6 swimmers in a race. In how many different ways can you pick the first 2 placegetters in the correct order?

17. Terry bet $5 on each of these 4 horses in a horse race:

(a) Calculate his financial expectation.(b) On average, will Terry make a gain or a loss? Of how much?

Horse Probability of win Payout from $5

Buckley’s Chance 0.01 $317

Dragonfly 0.12 $34

Hobson’s Choice 0.06 $59

Snowflake in Hell 0.08 $40

Study tips

PRACTISE PAST EXAMS

Why is practising past exams such an effective study technique? Because it allows you tobecome familiar with the format, style and level of difficulty expected in the HSC exam,as well as common topic areas tested. Knowing what to expect alleviates exam anxiety.Remember, mathematics is the only subject in which the exam questions are fairlypredictable. The people who write the exams are not going to ask many unusual or atypicalquestions. By the time you have finished studying many past exams, this year’s HSC paperwon’t seem that much different.

Don’t throw your old exams and assignments away. They are valuable resources forfurther study. By reviewing past exams, you can identify your mistakes and weak areasand work on them. Old exams and review exercises allow for general (rather than specific)Maths revision. You may like to complete past exams under a time limit to develop yourexam technique.

You can find past exam papers (with solutions), study guides and revision books in yourlibrary, Maths faculty and bookstores. There are chapter assignments and practice papers(including a practice HSC exam) throughout this book for review purposes.


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