maths d (normal track) year 9 (3 years)
TRANSCRIPT
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SCHEME OF WORK FOR SPN-21 (MATHEMATICS)YEAR 9 NORMAL TRACK (2 + 3)
Content coverage Scope and Development Suggested Activities Resources
1. ALGEBRA 3( 5 weeks)
1.1 Factorisation ofQuadraticTrinomials
)( 2 cbxax ++
Review factorisation by finding the highestcommon factors, grouping and difference of twosquares.
Introduce factorisation ofax2 + b x + c where a = 1.
Proceed to cases where a 1. Writing thex -term as two terms, then perform
factorisation by grouping e.g.
)3(1)3(236235222
++=+=+ xxxxxxxx
)3)(12( += xx .
Extend the concept to factorisation ofax2 + b x y
+ cy2..
Extend to situations where a < 1 (e.g. 8 + 2 x -3 x
2)
Write a few algebraicexpressions and arrangethem according to the typeof factorisation they belongto.
Guide the students to
recognise the pattern ofquadratic trinomials.
Show some expansionse.g. (x+3)( x +2) =x 2 + 5 x+ 6
(x -3)( x -2) =x 2 5 x +6
(x +3)( x -2) =x 2 +x 6(x -3)( x +2) =x 2 x 6
Use the idea that expansionis the reverse offactorisation and guide thestudents to observe someimportant patterns.
Trial and Error with CrossMultiplication is a morepowerful method.For more able students, weshould encourage them tojust write down the result of
factorisation by inspection.
http://www.mathsteacher.com.au/year10/ch10_factorisation/06_further_quadratic_trinomials/furth.htm
http://www.coolmath.com/algebra/algebra-practice-problems.html
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Content coverage Scope and Development Suggested Activities Resources1.2 Combined
Factorisation
Discuss the method of doing combinedfactorisations
e.g. 4y2 36 ; 2 x 2 + 6 x - 20
Train the students to bealert to see whether a givenexpression can befactorised first by taking outthe common factor.
http://www.coolmath.com/algebra/Algebra2//04_what.htm
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1.3 QuadraticEquations
(a) Solving byFactorisation
(b) Solving byTaking
Square Root
Explain that if 0=ba , then either a = 0 or b =0.
Apply the concept to solve quadratic equationsax 2 + bx= 0 and a x 2 + bx + c =0 byfactorisation.
Extend to cases of(ax +b) 2 = cwhere cis not aperfect square.
Show that a quadratic equation of the form
0222 =bxa can be solved by factorisation e. g.
0492
=x gives 0)23)(23( =+ xx ,3
2=x
or3
2=x or bytaking square root on both sides.
eg 049 2 =x gives 492=x then
.3
2
9
4==x
Show that the product oftwo factors being zeromeans that one of thefactors must be zero is thereasoning behind the
method of solution byfactorisation.Emphasise that there arealways two solutions forquadratic equation withspecial situations where theroots are repeated.
Summarise the key steps:1. Make one side of theequation
to become 0
2. Factorise the equation3. Equate each factor to 0and
solve the two linearequations
Summarise the differentsituations involvingquadratic expression (e.gx2 -3x 4) and quadraticequation (e.g.x2 3x 4 =0).
The final answer for x2
3x4 is (x4)(x+1) whereasthe final answers forx2 -3x 4 = 0 are x= 1 or 4
Show the students thegraph of y = x24x +3and that the solutions ofthe quadratic equationx2 4x + 3 = 0 are thevalues of xwhere thegraph intersects the x-
axis. [ solving graphically]
http://www.purplemath.com/modules/variant1.htm
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Extend to cases of(ax + b) 2 = c where c is aperfect square.
Content coverage Scope and Development Suggested Activities Resources
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(c) Solving byusing
QuadraticFormula
Introduce the Quadratic Formula
a
acbbx
2
42 = to find solutions to
02 =++ cbxax .
Solve equations involving use of the quadraticformula.
Show an example of aquadratic equation thatdoes not factorise
e. g. 0242 =+ xx .
Introduce the quadraticformula to solve theequation and remindstudents the need toidentify a, b and c termsfirst and to be careful whenb and c are negativenumbers.
Guide the students to knowwhen this method is to be
used. The clue is when thequestion asks for theanswers to be given to acertain number of decimalplaces. This indicates thatthe expression cannot befactorised and thus have tobe solved using theQuadratic Formula.
Show clearly the correctway to write when b isnegative. (e.g. if b = -3,
then we have (-3) and then(-3) 2 for b2 ,not -32.
Check carefully whether thestudents are able to use thecalculator efficiently or not.
If the question asks foranswers to be rounded offto 2 decimal places, theworking values should berounded off to 3 or moredecimal places.
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Content coverage Scope and Development Suggested Activities Resources
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1.4 AlgebraicFractions
(a) Addition andSubtraction
(b) Multiplicationand
Division
Go through the addition and subtraction ofnumeric fractions and stress on the need to findthe LCM of the denominators.
Perform addition and subtraction of algebraicfractions with numerical denominators andfollowed by algebraic denominators.
Emphasise on putting brackets on denominatorsand numerators which are algebraic expressionsbefore simplifying the numerator.
Revise multiplication and division of arithmetic
fractions. Explain the method of multiplying algebraic
fractions.
Explain the method of division involving algebraicfractions.
Caution on the commonsign mistakes whenexpanding bracket with a
before the bracket.(e.g. for 2(x +3), somestudents may give as 2x +6
Emphasise on theappropriate way to writethe expression. E.g. (x 4)2should be written as 2(x 4). Similarly, (2 x)(4y)should be simplified to 8xy.
Use the numerical fractionsto recall the main idea,focussing on cancellationbetween numerators anddenominators.
For letter with powers,encourage the students touse the rules of indices.Do not encourage thestudents to expandbrackets as brackets will
help in final simplification.
Guide students to transferthe techniques tomultiplying and dividingalgebraic fractions thatrequire no factorisation.Multiply and dividealgebraic fractions thatrequire factorisation of thenumerator and or thedenominator.
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Content coverage Scope and Development Suggested Activities Resources
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1.5 Word Problems
Revise solving simple algebraic equations e. g. 3
2x= 7.
Identify key words and use key words totranslate word problems into an algebraicexpression or equation e. g. is (means = ),older than, increase, twice, etc.
Introduce symbols/letters to represent theunknown quantities and translate word problemsinto quadratic equations or algebraic fractionalequations, algebraic expression or equation.
Solve the algebraic equations and interpret thesolutions obtained. For examples, refer to PastO level Questions : Jun.2002/Paper2/Qs.10, Nov.2000/Paper2/Qs.11,Nov.2002/Paper2/Qs.7.
Start with situations whichare easier for students tovisualise. For e.g. the
comparison of the ages ofsome people (common keywords: older than, youngerthan etc). Introduce keywords like twice, half, total,average, three times etc ineach situation.
Some students may find ithard to stop at situation likex +3. Very common to findthis to be simplified to 3 x
(Teachers must then stressthat in Maths x +3 is apossible answers, so isx 3etc).
Begin with problemsinvolving quadraticequations, then introducealgebraic equations withnumerical denominatorsand with three terms or lessthat are reducible to linear
equations in one unknown,
e. g. 16
5
4
13=
+ xx
3 x= 12
Provide examples with avariety of simple fractionalequations.Proceed with exampleswhere the denominator is inalgebraic form and are
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equations in one unknownor to quadratic equations,e.g.
1
3
x
x
x
x
3
12 = 4
Content coverage Scope and Development Suggested Activities Resources
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2. VARIATIONS(2 weeks)
2.1 Direct Variation
Define direct variation as the relationshipwhereby one quantity increases as the otherquantity increases in direct proportion and viceversa.
Express a direct variation in the form of anequation involving two variables and use theequation to find unknown quantities.
Begin work on variation byusing an example such as
the price of a piece of cloth,c being proportional to its
length, l, ie. lc .Show that the variables arein direct proportion, i.e.
,
2
1
2
1k
l
l
c
c== constant of
proportionality).Show how to form theequation connecting the
variables: c = kl.Relate the equation to y =mx and explain that thegraph ofc against lis astraight line passingthrough the origin.
Explanations andexamples of word
problems involvingdirect and inversevariations athttp://regentsprep.org/regents/math/variation/pracdirect.htm
http://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfsection 15.5onwards
2.2 Inverse Variation Define inverse variation as the relationshipwhereby one quantity increases as the otherquantity decreases and vice versa.
Explain that the two quantities are inverselyproportional to each other.
Express an inverse variation in the form of anequation involving two variables and use theequation to find unknown quantities.
Give an example thatrelates to the Less men,more share concept suchas If 12 men were tocomplete a job in 10 days,how long will it take tocomplete the job if 6 menwork on it? Show that thevariables are in inverse
proportion, i.e.1
2
6
12
2
1 ==n
n
while
.2
1
20
10
2
1 ==d
d
Explain that the product n xdis a constant.
Show that if n variesSPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 11 of 25
http://regentsprep.org/regents/math/variation/pracdirect.htmhttp://regentsprep.org/regents/math/variation/pracdirect.htmhttp://regentsprep.org/regents/math/variation/pracdirect.htmhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfhttp://regentsprep.org/regents/math/variation/pracdirect.htmhttp://regentsprep.org/regents/math/variation/pracdirect.htmhttp://regentsprep.org/regents/math/variation/pracdirect.htmhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkc15.pdf -
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inversely as d, in notation,
dn
1 , then
d
kn = ,
where k is a constant.
Content coverage Scope and Development Suggested Activities Resources
3. COORDINATEGEOMETRY 2(REVISIT)
(3 weeks)
3.1 Formulae forDistance,
Mid-point andGradient
Review formulae for distance, mid-point andgradient and solve problems that require the useof these formulae including finding one end-pointof a line segment given the midpoint and one
other end-point.
[Remark : Covered in Topic 7 in Year 2]
http://www.mathsisfun.com/equation_of_line.
html
http://www.mathsnet.net/asa2/2004/c2.html#
2
3.2 Gradient andParallel Lines
Solve problems on finding the gradient of astraight line and of lines parallel to a givenstraight line.
3.3 Equationof a Straight Line
Find the equation of the line when given
- the gradient and they-intercept,
- one point and the gradient,
- two points,
- one point and the equation of a parallel line,
- a diagram of a triangle or quadrilateral.
Introduce the use of
)11 ( xxmyy =
where ),( 11 yx is any point
on the lineand m is thegradient.
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http://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsnet.net/asa2/2004/c2.html#2http://www.mathsnet.net/asa2/2004/c2.html#2http://www.mathsnet.net/asa2/2004/c2.html#2http://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsisfun.com/equation_of_line.htmlhttp://www.mathsnet.net/asa2/2004/c2.html#2http://www.mathsnet.net/asa2/2004/c2.html#2http://www.mathsnet.net/asa2/2004/c2.html#2 -
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3.4 Miscellaneous Problems
Solve miscellaneous problems including findingcoordinates of intersection points, the unknown xand y-coordinates, area of a triangle, etc.
Ensure that the studentsare able to state that thecoordinates of the x-intercept of a line is (x, 0)and y-intercept of a line
is (0,y).
Content coverage Scope and Development Suggested Activities Resources
4. GRAPHS OFFUNCTIONS
(3 weeks)
4. 1 Constructing atable of
values and drawinga smooth curve
Construct tables of values for functions of theformy = a xn where n = 2, 1, 0, 1, 2, 3.
Calculate the unknown y-value in the table ofvalues for a given equation
Explain the techniques of drawing graphs,stressing the importance of using the givenscale and to plot points accurately, then draw asmooth curve through all the points.
Get students to recognise the basic shapes ofthese graphs and sketch them.
Interpret graphs of linear, quadratic, cubic,reciprocal and exponential functions.
Begin with n = 0, 1 andshow that they are straightlines. Proceed to n = 2 forthe parabola, then n = 3 forthe cubic function before n= 1 for the hyperbola andn = 2.
Discuss the basic propertiesof the graphs for thedifferent values ofn. Advise
students to memorise thebasic shapes so that theycan sketch the graphseasily.
http://www.coolmath.c
om/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htm
http://www.coolmath.com/algebra/Algebra1/11Quadratics/07_introgr
aphing.htm
http://www.mathsisfun.com/graph/index.html
4. 2 Finding the valuesof
variables from agraph
Determine from the graph the value ofy, giventhe value ofxand vice versa, includingmaximum and minimum values.
Explain that any function inthe formy = a xn + chasay-intercept ofc as it is atranslation of the graph ofy= a xnupwards by c units.Thex-intercept can befound by solvingy= 0.
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http://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/PreCalc/01MoreGraphing/01_lovegraphs.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htmhttp://www.coolmath.com/algebra/Algebra1/11Quadratics/07_intrographing.htm -
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4. 3 Gradient of acurve
Estimate the gradient of a curve by drawing atangent to the curve at the given point andexplain that a tangent to a curve is a line thatjust touches the graph at that given point.
4. 4 Solve equations
by graphicalmethod
Solve the equations of the form (i) f(x) =g(x),(ii) f(x) = a (where a is a constant), using thegraph drawn.
4.5 Graphs in practicalsituations
Extend the skill in graph drawing to somepractical situations (E.g. between height andtime, profit and numbers of book printed etc)
Solve related problem using the graph drawn.
Content coverage Scope and Development Suggested Activities Resources5. INEQUALITIES
(3 weeks)
5.1 Meaning andsymbols
Define the symbols used in inequalities :
means greater than, means less than
or equal to and means greater than or equalto.
Compare the size of two numbers using thesymbols .
Use the number line to aidin the understanding of theinequality symbols.Get students to read, e.g.x> 3 asxis greater than 3.
http://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone
/ineql.htm
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http://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htmhttp://home.xnet.com/~fidler/triton/math/review/mat085/linIneqone/ineql.htm -
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http://www.coolmath.com/
algebra/Algebra1/08System2x2/06_inequaliti
es.htm
5.2 Solve LinearInequality
List the values of a linear inequality such as 1x ,
2x , 32 use a circle or
dotted vertical line tomark the end point whereas for or use a
dot or solidvertical line to mark the end point).
Solve linear inequalities in one variable.
Solve simultaneous linear inequalities in onevariable.
Determine the possible solutions or solution setof a given inequality under various conditions.
Find the least and greatest sum, difference,product and quotient of two variables given in
two separate inequalities. (include their squares)
Caution students aboutfinding the greatest or leastvalues ofx2where x isgiven as a range thatstretches from negative topositive e.g. 35 x .Thegreatest value ofx2is 25and not 9 and the least value
is 0.Also for 35 x , theinequality for x2 is
2592 x .
5.3 GraphicalRepresentation ofInequalities
Review sketching of straight lines and writingequations for lines in a given diagram.
Remind students about the convention in usingsolid and dotted lines and indicate by a sketch,the region defined by an inequality (usually byshading the unwanted region).
Write the inequalities which define a region(usually unshaded) where the equations of theboundary lines are given or not given.
Explain how to obtain the region defined by asystem of linear inequalities.
Determine the maximum or minimum ofax +byfor a defined region by evaluating the expressionat the vertices of the polygon formed by theregion.
Caution the students toread the questions carefullyas it is not always right toshade the unwanted region sometimes the wantedregion should be shaded.
Content coverage Scope and Development Suggested Activities Resources
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6. LIMITS OFACCURACY(1 week)
6. 1 SignificantFigures,
Decimal Placesand
Estimation(Revisit)
Review the technique of rounding off numbers to
the required accuracies.
6. 2 Upper and LowerBounds Introduce the concept of absolute error as
2
1
smallest division of a measuring instrument,
and so a measurementx is written as (xabsolute error) where (x absolute error) is the
lower bound and (x + absolute error) is theupper bound.
Give appropriate upper and lower bounds fordata given to specified accuracy (e.g. measuredlengths).
Discuss the ideas of greatest and least values ofsum, difference, product and quotient.
Introduce the idea of lower bound and upperbound of a basic quantity from various types ofstatements. For example,(a) 8.6 cm measured correct to the nearest 0.1
cm,(b) 8300 correct to the nearest hundred
Show the common ways of expressing allpossible values of the given quantity ( l = 8.60
0.05 cm or 8.55 cm l < 8.65 cm) and themethod of obtaining the lower bound and upperbound from these expressions.
Apply lower bound or upper bound of basicquantities to find the least possible and thegreatest possible perimeter, area, volume, etc.
Use straight forwardexamples to determine upperand lower bounds of data.For example, a length, l,measured using an ordinaryruler as 3 cm (to the nearestmillimetre) has an absolute
error of 2
10.1 cm = 0.05
cm. This gives a
measurement of (3.00
0.05) cm which has a lowerbound of 2.95 cm and anupper bound of 3.05 cm.Show that this informationcan be written usinginequality signs e.g. 2.95 cm
l < 3.05 cm.
Investigate upper and lowerbounds for quantitiescalculated from givenformulae by specifying theaccuracy of the input data.
Discuss further exampleson lower and upper boundwhich includes:
5.62 correct to 3 sig.
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24.9 correct to 1 decimalplace.In each example, promptthe students to state anypossible value which givesthe stated value after
rounding off according tothe accuracy stated.Lead them to arrive at thelowest possible value (lowerbound) and the largestpossible value (upperbound).
Content coverage Scope and Development Suggested Activities Resources
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7. TRAVEL GRAPHS (3 weeks)
7. 1 Distance-timegraph
Draw and interpret qualitatively distance-timegraphs (horizontal line stationary, sloping line
uniform speed, convex curve speed isdecreasing and concave curve speed isincreasing).
State that the gradient of the graph is the rate ofchange of the distance with respect to time, i.e.speed.
Use the formula Average Speed =
takentimeTotal
travelleddistanceTotal.
Solve problems involving distance time graphs.
Present a distance-timegraph and have students to
create their own storydescribing the journeyrepresented by the graph.Proceed to introduce theterms constant or uniformspeed, stationary, forwardjourney and returnedjourney.Extend to distance-timegraph with non-uniformspeed, which is a curve.
http://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtml
http://www.regentsprep.org/Regents/physics/
phys-topic.cfm?Course=PHYS&TopchicCode=01a
7. 2 Speed- time
Graph
Draw and interpret qualitatively speed-timegraphs (horizontal line constant speed, slopingline uniform acceleration or retardation, curve non-uniform acceleration or retardation).
State that the gradient of the graph is the rate ofchange of the speed with respect to time, i.e.acceleration (positive gradient) or retardation(negative gradient).
State that the distance travelled is equal to thearea under a speed-time graph and use it tosolve related problems.
Solve problems on the speed-time graphincluding finding the speed at a particular time.
Sketch the distance-time or acceleration-timegraph from the given speed-time graph.
Discuss that if the rate isconstant, the speed-timegraph will be a straight linewhose gradient is:- positive, when the speedisincreasing (accelerating)
uniformly,- negative, when the speedisdecreasing (retarding)
uniformly,- zero, when the speed isconstant(i.e. no acceleration).
Extend the discussion tothe speed-time graph whichaccelerate or decelerate
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http://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev5.shtml -
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with non-uniform speeds. Inthis case the graph shows acurve.
Content coverage Scope and Development Suggested Activities Resources
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 19 of 25
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8. FUNCTIONNOTATION
(2 weeks)
8.1 Introduction of
Functionand Evaluation of
f(x)
Explain the meaning of a function as a
relationship that maps an element of one setonto one and only one element in another set.
Explain that for an objectx, the image ofxunderfunction f is f(x) and introduce the domain as theset of objects and the range as the set of images.
Emphasize that there are two ways to indicatethe function notation i. e. f(x) = 3x 5read as fofxis equal to 3x 5and f : x 3x 5as f maps xonto 3x 5.
Find the image of a function by evaluating f(x).
Introduce a function, using
diagrams, as a one-onemapping or many-onemapping.Show that afunction has a one-to-onemapping or many-to-onemapping (i.e. it has exactlyone image only).Evaluate f(x) for specificvalues of x, describing thefunctions using f(x) notationand mapping notation.
Connect this to y = 3x 5.Here we say that y is thefunction of x and f(x) = 3x 5 is the same as y = 3x 5.
http://www.bbc.co.uk/
education/asguru/maths/13pure/02functions/index.shtmlhas some work oninverse functions.
Also search forfunctions athttp://www.learn.co.uk/
8.2 Finding andEvaluating
Inverse Function
Explain the meaning of an inverse function andthe notation used to represent an inversefunction.
Explain the method of finding an expression forthe inverse function and evaluate the inversefunction at a given value ofx.
Explain the method of evaluating an inversefunction without having to find the expression forthe inverse function first
e. g. To find )4(1f given the function f(x) =
3x 5, we let
)4(1f =x.The solution can then be found by
solvingf(x) = 4,giving 3x 5 = 4 , then x= 3.
Introduce the inversefunction as an operationwhich undoes the effect ofa function i.e.when f : x y, then
xyf :1 or when f( x) =
y, then xyf = )(1 .
Point out that only one-to-one function has an inverse.
Evaluate simple inversefunctions for specificvalues, describing thefunctions using f-1(x)notation and mappingnotation.
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 20 of 25
http://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.learn.co.uk/http://www.learn.co.uk/http://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.bbc.co.uk/education/asguru/maths/13pure/02functions/index.shtmlhttp://www.learn.co.uk/http://www.learn.co.uk/ -
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8.3 Solving EquationsInvolving Functions
Solve equations involving functions using giveninformation e.g. given f(x) = 4, f(x) = g(x) , etc.
Content coverage Scope and Development Suggested Activities Resources
9. ARITHMETIC(5 weeks)
9.1 More on H.C.F. andL.C.M. Review common factors and common multiples.
Give students practice on word problemsinvolving HCF / LCM, for example, refer to pastO level questions : Nov.1998/Paper1/Qs.5 ,Nov.1999/Paper1/Qs.10.
9.2 Squares, squareroots,
cubes and cuberoots of
numbers
Evaluating without using calculator, square rootfor perfect squares and non-perfect squares.
Example 1
Find (a)4
12 , (b) 0009.0 , (c) 12100 .
Example 2
Given 808.127.3 = and 718.57.32 = ,
evaluate (i) 3270 , (ii) 00327.0 .
Find the cube root for cubic numbers.
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9.3 Directed numbers Use directed numbers in practical situations such
as in temperature change and tide levels.
Use number line to aidaddition and subtraction ofpositive and negativenumbers. Illustrate by usingpractical examples, e.g.temperature change andtide levels.
Stress that when findingdifference or change,always take the highervalue subtract the lowervalue.
http://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhas work ondirected numbers.
Weather statistics forover 16000 cities athttp://www.weatherbase.com/
9.4 Time Calculate time in terms of the 12-hour and 24-hour clock: read clocks, dials and timetables.
Convert between hours, minutes and seconds.
Find the sum and differences of times.
Let students practise infinding information fromtime schedules. Calculatetime difference, departure
time, arrival time and timetaken for a plane/train totravel from one place toanother.
Suggestion: Instead ofthinking of a clock as around thing, it is easier tosee the relationship ofstarting time, duration oftime and finishing time if
we think of it as a straightline. This is especiallyuseful in situation wherethe finishing time is on thenext day.
Use locally-publishedtimetables e.g. forbuses.
Practice usingtimetables is athttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb8.pdf.
Explain the idea on local time and the terms
used, (e.g. BSB is 8 hoursahead
of
Ensure that the studentsare able to convert betweenhours, minutes and secondsbefore finding the sum anddifference of times.
Caution the students to
http://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motio
nrev2.shtml
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 22 of 25
http://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.weatherbase.com/http://www.weatherbase.com/http://www.ex.ac.uk/cimt/mepres/allgcse/bhttp://www.ex.ac.uk/cimt/mepres/allgcse/bhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.ex.ac.uk/cimt/mepres/allgcse/bkb10.pdfhttp://www.weatherbase.com/http://www.weatherbase.com/http://www.ex.ac.uk/cimt/mepres/allgcse/bhttp://www.ex.ac.uk/cimt/mepres/allgcse/bhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/physics/forces_and_motion/representing_motionrev2.shtml -
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London) and the method of finding local time.write the final answer fortime correctly (e.g. arrivaltime is 13 45 and not 13hours 45 minutes. Flighttime is 8 hours 30 minutesand not 08 30).
http://www.financefreak.com/
9.5 Financial Transaction andPercentage
Solve word problems involving financial transactions(review cost price, selling price, discounts, profit,loss, hire purchase, simple interest andcommissions).Examples of O Level questions :Nov2000/P2/Q1,Nov 2002/P2/Q6
Solve word problems involving percentages calculate a given percentage of a quantity;
express one quantity as a percentage ofanother; percentage increase or decrease;calculations involving reverse percentages.
Content coverage Scope and Development Suggested Activities Resources
10. CONGRUENCEAND
SIMILARITY(3 weeks)
10.1 Congruence Meaning of congruent figures.
Understand and apply the tests for congruenttriangles (SSS, SAS, ASA or AAS and RHS)
Solve problems and give simple explanationsinvolving congruent triangles.
Discuss the conditions forcongruent triangles.
http://www.coolmath.com/congruent.html
http://regentsprep.org/Regents/math/congrue
n/Ttriangles.htm
http://www.gcseguide.co.uk/
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 23 of 25
http://www.financefreak.com/http://www.financefreak.com/http://www.coolmath.com/http://www.coolmath.com/http://www.coolmath.com/http://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://www.gcseguide.co.uk/%20similar_triangles.htmhttp://www.gcseguide.co.uk/%20similar_triangles.htmhttp://www.financefreak.com/http://www.financefreak.com/http://www.coolmath.com/http://www.coolmath.com/http://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://regentsprep.org/%20Regents/math/congruen/Ttriangles.htmhttp://www.gcseguide.co.uk/%20similar_triangles.htmhttp://www.gcseguide.co.uk/%20similar_triangles.htm -
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similar_triangles.htm
http://regentsprep.org/Regents/math/similar/
Lstrategy.htm
http://www.ex.ac.uk/cimt/
mepres/book9/y9s14os.pdf
http://www.ex.ac.uk/cimt/mepres/book9/y9s14os.pdf
http://www.bbc.co.uk/schools/gcsebitesize/maths/shapeih/areaandv
olumerev1shtml
10.2 Similarity Meaning of similar figures.
Understand and apply the tests for similartriangles.Test 1: Two pairs of corresponding angles are
equal.
Test 2: Corresponding sides are in proportion.Test 3: Two pairs of sides are in the same ratio
and their included angles are equal.Solve problems and give simple explanationsinvolving similarity.
Use the fact thatcorresponding sides are inthe same ratio to calculatethe length of an unknownside.
10.3 Areas of SimilarPlane
Figures
When two figures are similar, the ratio of theareas= (the ratio of the corresponding lengths)2 i.e.
2
2
1
2
1
=
l
l
A
A.
Use this relationship to solve problems onareas of similar plane figures.
Note that other thencorresponding length, thecorresponding height, orsides can also be used.
10.4 Surface Areasand
Volumes of SimilarSolids
For two geometricallysimilar solids,Ratio of the surface area = (ratio of the
corresponding lengths)2 i.e.
2
2
1
2
1
=
l
l
SA
SA.
Ratio of the volumes = (ratio of the
corresponding lengths)3
i.e.
3
2
1
2
1
= ll
V
V
.
Use these relationships to solve problems onsurface areas and volumes of geometricallysimilar solids.
Find in terms of the
surface area and volume ofspheres of radius 1 cm and 2cm and compare the results.Try with 3 cm and 5 cm radiiand compare the results ofthese two circles with thecircle of radius 1cm.Show how to relate some
situations to length or area orvolume. E.g. Price of drink ina container is proportional tothe volume of the drink.Cost of painting the surfaceof a container is proportionalto its area etc.
Content coverage Scope and Development Suggested Activities Resources
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 24 of 25
http://www.gcseguide.co.uk/%20similar_triangles.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.gcseguide.co.uk/%20similar_triangles.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://regentsprep.org/%20Regents/math/similar/Lstrategy.htmhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.ex.ac.uk/cimt/%20mepres/book9/y9s14os.pdfhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtmlhttp://www.bbc.co.uk/%20schools/gcsebitesize/maths/shapeih/areaandvolumerev1shtml -
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10.5 Scales and Mapproblems
Interpret the scale 1 : n as 1 cm on the map isequivalent to n cm on the ground.
Calculate the actual distance between twoplaces on a map, given its scale.
Explain the ideas of linear scale, area scale
and volume scale and the method of obtainingone scale from the other.the ratio of the areas = (the ratio of the
corresponding lengths)2 i.e.
2
2
1
2
1
=
l
l
A
A,
Ratio of the surface area = (ratio of the
corresponding lengths)2 i.e.
2
2
1
2
1
=
l
l
SA
SA,
Ratio of the volumes = (ratio of the
corresponding lengths)3 i.e.
3
2
1
2
1
=ll
VV .
e.g. Linear scale is 1cm : 5 km,
Area scale is 1cm 2 : 25 km 2 and
volume scale is 1cm 3 :125 km 3 .
Explain the method of changing units (linear,area and volume units).
Calculate the distance on a map given the
scale and actual distance.
Measure the dimensions ofthe classroom, includingdoors and windows. Use asuitable scale, draw a planof the classroom on paper.Then calculate the area ofthe classroom floor and thevolume of the classroom.
Require students to bringtheir atlas or geographybook and apply theirknowledge on maps andscales to find the actualdistance between towns.
http://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtml
SPN-21 (Interim Stage) Year 9 Normal Track (2 + 3) Page 25 of 25
http://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtmlhttp://www.bbc.co.uk/schools/gcsebitesize/geography/geogskills/geogskillsmapsrev1.shtml