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SPM PHYSICS

LIST OF DEFINITION (Bilingual Text)

CHAPTER ONE ( INTRODUCTION TO PHYSICS )

ITEM MEANING/DEFINITION

Physics quantities A quantity that can be measured.

Kuantiti yang boleh diukur

Base quantities Physical quantities that cannot be difined in term of other physical quantities.

Kuantiti fizik yang tidak dapat ditakrifkan

Derived quantities Physical quantities derived by combining base quantities. This can be done by multiplication or division or

both.

Kuantiti fizik yang dihasilkan daripada gabungan kuantiti asas secara pendaraban atau pembahagian atau

keduanya.

Precision /Consistency

The ability to measured values remain constant throughout.

Kebolehan alat itu mengukur sesuatu kuantiti fizik dengan memberi nilai secara konsisten.

Accuracy The ability of an apparatus to give readings nearest to the actual value.

Kebolehan alat untuk mengukur kuantiti fizik yang hampir dengan nilai sebenar.

Sensitivity Ability to detect small changes in measuring physical quantities.

Kebolehan alat mengesan perubahan kecil pada kuantiti yang diukur.

Errors Incorrectly reading and measurement.

Ketidakpastian dalam suatu bacaan dan pengukuran.

Systematic errors Cumulative errors that can be corrected, if errors are know like incorrect position of the zero point and

incorrect calibration of the measuring instrument.

Ketidakpastian alatan ketika yang tidak menunjukkan bacaan kosong ketika bacaan skala diambil dalam

membuat pengukuran.

Random errors Arise from unknown and unpredictable variations in condition, and will produce a difference error every time

you repeat the experiment. They may vary from observation to observation.

Kesilapan yang dilakukan oleh mata pemerhati semasa mengambil bacaan

Parallax error Is an error in reading an instrument because the observer’s eye and the pointer are not in a line perpendicular

to the plane of the scale.

Kesilapan pengukuran semasa mengambil bacaan skala dan kedudukan yang kurang sesuai.

Zero error The measuring instrument does not start from exactly zero.

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CHAPTER TWO ( FORCE AND MOTION )

ITEM MEANING/DEFINITION

Linear motion Motion in a straight line.

Gerakan mengikut satu garis lurus.

Scalar quantities A quantities which has only magnitude.

Kuantiti yang mempunyai magnitud shj.

Vector quantities A quantities which has both magnitude and direction.

Kuantiti yang mempunyai magnitud dan arah.

Velocity The rate of change of displacement.

Kadar perubahan sesaran.

Speed The rate of change of distance.

Kadar perubahan jarak.

Acceleration The rate of change of velocity.

Kadar perubahan halaju..

Distant The total length of the path traveled.

Jumlah panjang lintasan yang dilalui.

Displacement The distance travelled in a specific direction.

Jarak yang dilalui mengikut arah tertentu.

Inertia The tendency of an object to resist change to its state of motion.

Sifat semulajadi sesuatu objek yang menentang perubahan kepada keadaan asalnya samada pegun atau

bergerak.

First Newton’s Law An object at rest tends to stay at rest and a moving object tends to continue its uniform motion with the same

speed and in the same direction unless being acted upon by an external force.

( menerangkan situasi inersia )

Second Newton’ s law The net force on an object is proportional to the rate of change in momentum.

( menerangkan situasi kadar perubahan momentum terhadap daya ( F=ma ) – daya impuls.

Third Newton’s law ( menerangkan situasi keseimbangan daya )

Menyatakan bahawa bagi setiap tindakan terdapat satu tindakbalas yang mempunyai magnitude yang sama

dan bertindak pada arah yang bertentangan.

Momentum The product of its mass and velocity.

Hasil darab jisim dengan halaju.

The principle of conservation of

momentum

The total momentum of a system is constant, if no external force acts on the system.

Jumlah momentum sebelum perlanggaran = Jumlah momentum selepas perlanggaran.

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Force The resistant of change to its state of motion or moves in the object..

Tindakan yang boleh mengubah keadaan rehat atau gerakan suatu jasad.

Impulsive Change in momentum.

Perubahan momentum.

impulsive force The rate of change of momentum.

Kadar perubahan momentum.

Weight The force of gravity which is exerted on it by earth.

Daya tindakan gravity ke atas suatu jasad.

Mass The amount of matter in the object.

Jumlah kuantiti jirim bagi suatu jasad.

Free fall An object falling under the force of gravity only without any external forces.

Sebarang objek yang jatuh disebabkan oleh daya gravity ( berlaku dalam vakum ) tanpa sebarang daya luar.

Work The product of force and the displacement.

Hasil darab daya dengan sesaran.

Energy The capacity to do work.

Keupayaan melakukan kerja.

Gravitational field The region in which an object experiences a foece due to gravitational attraction.

Potential energy The energy stored in the object because of its position or its state.

Tenaga yang dipunyai oleh suatu jasad disebabkan oleh kedudukannya.

Elastic potential energy The energy possessed by an object due to its compressed or rarefaction.

Tenaga yang dipunyai oleh jasad yang diregangkan atau dimampatkan.

Kinetic energy The energy possessed by an object due to its motion

Tenaga yang dipunyai oleh suatu jasad disebabkan oleh gerakannya.

The principle of conservation of

energy

State that the energy cannot be created or destroyed. It can be transformed from one form to another, but the

total energy in a system is constant.

Menyatakan bahawa tenaga tidak boleh dicipta atau dimusnahkan tetapi boleh berubah bentuk ke benntuk yg

lain.

Power The rate at which work is done or energy is transformed.

Kadar melakukan kerja @ tenaga.

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CHAPTER THREE (FORCE AND PRESSURE)

ITEM MEANING/DEFINITION

Elasticity

Kekenyalan

The property of an object that enables it to return to its original shape and dimensions ( sizes ) after an

applied external force is removed.

Keupayaan bahan untuk kembali ke bentuk asalnya apabila tindakan daya regangan atau daya mampatan

dialihkan.

Hooke’s law

Hukum Hooke

State that the extension of a spring is directly proportional to the stretching force acting on it provided the

elastic limit of the spring is not exceeded.

Menyatakan bahawa pemanjangan spring adalah berkadar terus dengan daya regangan yang dikenakan

dengan syarat had kekenyalan tidak dilampaui.

Pressure

Tekanan

The force acting perpendicularly on unit area of a surface.

Daya yang bertindak secara normal pada seunit luas.

Archimedes’ principle

Prinsip Archimedes

State that an object, whether completely or partially immersed in a fluid is acted on by a buoyant force which

is equal to the weight of the displaced fluid.

Menyatakan bahawa jasad yang direndam atau separa rendam dalam bendalir akan ditindakkan oleh satu

daya julangan ke atas yang sama nilai dengan berat bendalir yang tersesar oleh jasad itu.

Bernoulli’s principle

Prinsip Bernoulli

State that the in a steady flow of a fluid the pressure of the fluid decreases when the velocity of the fluid

increases.

Menyatakan bahawa kawasan bendalir yang bergerak dengan halaju tinggi akan menghasilkan tekanan yang

lebih rendah.

Pascal principle

Prinsip Pascal

State that in an enclosed fluid an externally applied pressure is transmitted uniformly in all directions.

Menyatakan bahawa tekanan yang dikenakan pada satu titik cecair akan dipindahkan ke seluruh cecair.

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CHAPTER FOUR ( HEAT)

ITEM MEANING/DEFINITION

Temperature

Suhu

The hotter measured on the object.

Ukuran kepanasan sesuatu jasad.

Heat

Haba

The one form energy was transfer by hot object to cold object.

Satu bentuk tenaga yang dipindahkan oleh jasad yang panas ke jasad yang lebih sejuk.

Thermal equilibrium

Keseimbangan terma

Produce when the net rate of heat transfer is zero.

Is reached when the temperature of both object touched is same.

Specific heat capacity

Muatan haba tentu

The quantity of heat energy required to increase the temperatureof 1 kg of the substance by 1˚C or 1 K.

Kuantiti haba yang diperlukan untuk menaikkan suhu seunit jisim bahan itu sebanyak 1 °C atau 1 K.

Specific latent heat

Haba pendam tentu

The quantity of heat energy required to change 1kg of the substance from physical form to another.

The amount of heat energy required to change the phase of 1kg of the substance at a constant temperature.

Kuantiti haba yang diperlukan untuk menggubah

1 kg bahan dari satu sifat fizikal ke bentuk yang lain.

Specific latent heat of fusion

Haba pendam tentu pelakuran

The quantity of heat energy required to change 1kg of the substance from a solid to a liquid without a change

in temperature.

Kuantiti haba yang diperlukan untuk menggubah

1 kg bahan pepejal ke cecair pada takat lebur tanpa kenaikan suhu.

Specific latent heat of vaporisation

Haba pendam tentu pengewapan

The quantity of heat energy required to change 1kg of the substance from a liqiud to a gaseous without a

change in temperature.

Kuantiti haba yang diperlukan untuk menggubah

1 kg bahan cecair ke gas tanpa kenaikan suhu.

Condensation

Penyejatan

A process matter changes from liquid to gaseous at random temperature lowest from that the boiling point.

Proses perubahan keadaan jirim daripada cecair menjadi wap pada sebarang suhu ygg lebih rendah

daripada takat didih cecair itu.

Boiling

Pendidihan

A process the liquid become vapour into bubble form gaseous to all boiling point of liquid.

Proses cecair menjadi wap dalam bentuk gelembung-gelembung gas di keseluruhan cecair itu pada takat

didih cecair itu.

Boyle’s law

Hukum Boyle

States that the pressure of a fixed mass of gas is inversely proportional to its volume provided the temperature

of the gas is kept constant.

Menyatakan bahawa tekanan berkadar songsang dengan isipadu bila suhu dan jisim tetap.

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Charles’ Law

Hukum Charles

States that the volume of a fixed mass of gas is directly proportional to its absolute temperature provided the

pressure of the gas is kept constant.

Menyatakan bahawa isipadu berkadar terus dengan suhu mutlaknya bila tekanan dan jisim tetap.

Pressure law

Hukum Tekanan

States that the pressure of a fixed mass of gas is directly proportional to its absolute temperature ( in kelvin )

provided the volume of the gas is kept constant.

Menyatakan bahawa tekanan berkadar terus dengan suhu mutlaknya bila ispadu dan jisim tetap.

CHAPTER FIVE ( LIGHT)

ITEM MEANING/DEFINITION

Reflected of light waves

Pantulan cahaya

Occur when a light wave propagate into the plane reflector and it is reflection.

Berlaku apabila sinar cahaya merambat menuju ke suatu permukaan berkilat.dan ia di pantulkan.

Reflected of light waves law

Hukum pantulan cahaya

It can be seen that :

Angle of incident = angle of reflection

The normal line, incident ray, reflection ray on the same plane.

Berlaku apabila:

Sudut tuju = sudut pantulan

Garis normal,sinar tuju dan sinar pantulan berada pada satah yang sama.

Refraction of light waves

Pembiasan cahaya

Is phenomenon where the direction of light is changed when it crosses the boundary between two materials

of different optical densities.

Pembengkokan cahaya berlaku apabila cahaya merambat melalui dua medium yang berlainan ketumpatan.

Refraction of light waves law

Hukum pembiasan

( Hukum Snell )

Sin i /sin r

Nisbah sinus sudut tuju kepada sinus sudut pembiasan.

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FORM 4 & FORM 5 PHYSICS FORMULA LIST

FORCES AND MOTION

1. timetotal

distance totalspeed average

t

sv vts

v

st

2. Acceleration, t

uva

3. a. atuv

b. tvu

s

2

c. 2

2

1atuts

d. asuv 222

e. average speed = 2

vu

4. mvMomentum

5. a. mumvmomentum of change

b. mumvFt Impuls

6. a. Impulsive force, t

mumvF

b. Force , maF

7. Weight = mgforcegravity

8. Work , FsW

9. Power, t

WP

10. a. Kinetic energy = 2

2

1mv

b. Potential energy = mgh

c. Elastic Potential energy = Fx2

1= 2

2

1kx

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FORCES AND PRESSURE

11. a. V

m,Density

b. Mass, Vm

c.

mV ,Volume

12. Hooke Law : kxF

13. Elastic Potential energy= Fx2

1 = 2

2

1kx

14. a. Pressure, A

Fp b. Force, pAF

15. Pressure in liquid ghp

16. Archimedes Pinciples

Buoyancy force = weight of water displaced

= Vg

17. Object floating= Weight = buoyant force

Vgmg

18. Pascal Principles : 2

2

1

1

A

F

A

F

HEAT

19. Temperature, C100o

aisstim

ais

XX

XX

20. Heat Capacity mcQ

21. Latern Heat, mlQ

22. Absolute temperature, C273 oT

23. a. Boyle Law : 2211 VpVp

b. Pressure Law : 2

2

1

1

T

p

T

p

c. Charles Law : 2

2

1

1

T

V

T

V

24. Hukum gas semesta : 2

22

1

11

T

Vp

T

Vp

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LIGHT

25. Focal length, 2

rf

26. a. Refractive index, r

in

sin

sin

b. Refractive index, c

nsin

1

c. Refractive index, depthapparent

depth realn

d. Refractive index,mediumin speed

vacumin speedn

27. Lens Power, P = )(

1

metref

28. lens equation : vuf

111

29. Magnification, m = u

v

objectofheight

imejofheight

30. a. Magnification of teleskop, m

o

f

fM

b. Magnification of teleskop, o

m

P

PM

c. Distance between 2 lens= mo ff

WAVES

31. Frequency, T

f1

32. waves speed, fv

33. Distance between 2 fringes, a

Dx

34. Parutan belauan : nd nsin

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ELECTRIC & ELECTROMAGNETISM

35. a. Charge, ItQ

b. Current, t

QI

36. Potential difference atau voltage, Q

WV

37. Electric energy, QVW

38. a. Resiatance, I

VR

b. Potential difference atau voltage, IRV

c. Current, R

VI

39. a. SERIES resistance = : 321 RRRR

b. PARALLEL resistance : 321

1111

RRRR

40. a. Energy, IVtW

b. Energy, RtIW 2

c. Energy, tR

VW

2

41. a. Power, t

WP b. Energy, PtW

42. a. Power, IVP

b. Power, RIP 2

c. Power, R

VP

2

43. a. emf., IrVE

b. rRIE

44. Alternating current (root mean square)

a. 2

o

rms

II b.

2

o

rms

VV

45. a. Transformer : P

S

P

S

N

N

V

V

b. Transformer : PPSS VIVI

46. Penghantaran Kuasa Elektrik

a. Power input, IVP

b. Power lost, RIP 2

47. Efficiency = %100inputPower

outputPower

P : primary

S : secondary

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ELECTRONIC

48. speed of electron : eVmv 2

2

1

RADIOACTIVITY

49. Einsteins Formula : 2mcE

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