RPS SP015 KMPk 2020/2021

LESSON PLAN FOR SEMESTER 1
(RANCANGAN PENGAJARAN SEMESTER-RPS)

PHYSICS SP015

SEMESTER 1
SESSION 2020/2021

PHYSICS UNIT
KOLEJ MATRIKULASI PERAK
KEMENTERIAN PENDIDIKAN MALAYSIA

SEMESTER 1 SESSION 2020/2021

PHYSICS SP015

1.0 Introduction

This physics syllabus was specially prepared for the Matriculation Program in preparation for students to achieve a standard basic level of physics. This course is to help

students acquire knowledge, practical skills and scientific and problem solving skills in basic Physics required for students to pursue in higher education.

2.0 Course Outline

2.1 Subject Evaluation : 2.3 Marks Evaluation

Evaluation is based on :

1. Continuous assessment: 60% Range of Grade Point Status
marks(%)
4.00 Excellent
Method of Assessment Percentage(% 80 – 100 A 3.67 Excellent
) 75 – 79 A- 3.33 Excellent
Ujian Penilaian Sumatif 70 – 74 B+ 3.00
(UPS) 20 65 – 69 B 2.67 Credit
Practical Test 60 – 64 B- 2.33 Credit
Lab Report 15 55 – 59 C+ 2.00 Pass
Assignment 15 50 – 54 C 1.67 Pass
10 45 – 49 C- 1.33 Fail
40 – 44 D+ 1.00 Fail
2. Examination 40% 35 – 39 D 0.00 Fail
● Paper 2 (100 marks) F Fail
0 – 34
2.2 Overall contact hours:

* Tutorial : 3 hour/week
* Practical : 2 hour/week
*Lecture : 1 hour/week

3.0 Planning for Teaching and Learning (T&L) Process (SP015)* *Subject to change

WEEK/ DATE HOUR(S) TOPIC LECTURE/TUTORIAL PRACTICAL REMARKS
½ 1.0 PHYSICAL QUANTITIES AND MEASUREMENTS Lecture C1 Introduction (A)
W1 ½ 2.0 KINEMATICS OF LINEAR MOTION Lecture C2 1.3 Significant figures and
10/8/20 1.1 Dimensions of physical quantities Tutorial C1 uncertainties analysis
1 1.2 Scalar and vectors
– Tutorial C2 Pre-Lab 1
14/8/20 1 2.1 Linear motion Introduction (B)
Lecture C2 1.3 Significant figures and
1 2.2 Uniformly accelerated motion uncertainties analysis
Tutorial C2
W2 1 2.0 KINEMATICS OF LINEAR MOTION (continue…) Pre-Lab 1
17/8/20 1 2.2 Uniformly accelerated motion (continue) Lecture C3 (Online Learning)
2 2.3 Projectile motion Lecture C4
– Experimet 1:
21/8/20 ½ 3.0 MOMENTUM AND IMPULSE Measurement and Uncertainty
½ 4.0 FORCES
W3 1 3.1 Momentum and impulse (B)
24/8/20 2 3.2 Conservation of linear momentum Introduction (A)
1.3 Significant figures and
– uncertainties analysis
28/8/20 (Online Learning)

Post-Lab 1 & Pre-Lab 2 (B)
(Online Learning)

W4 ½ 4.0 FORCES Tutorial C3 Experimet 1:
31/8/20 ½ 5.0 WORK, ENERGY AND POWER Measurement and Uncertainty
1 4.1 Basic of forces Lecture C4
– Lecture C5 (A)
4/9/20 2 4.2 Newton’s Laws of Motion Tutorial C4 Experiment 2:
Free-fall and projectile motion

(B)

Post-Lab 1 & Pre-Lab 2 (A) National Day
(Online Learning) 31/8/20 (Monday)

WEEK/ DATE HOUR(S) TOPIC LECTURE/TUTORIAL PRACTICAL REMARKS

W5 1 5.0 WORK, ENERGY AND POWER Lecture C5 Post-Lab 2 & Pre-Lab 3 (B) UJIAN PENILAIAN
7/9/20 1 5.1 Work Tutorial C5 (Online Learning) SUMATIF 1
2 5.2 Energy and Conservation of Energy (UPS 1)
– Experiment 2:
11/9/20 Free-fall and projectile motion

(A)

W6 1 6.0 CIRCULAR MOTION Lecture C6 Experiment 3 : Malaysia Day
14/9/20 1 5.3 Power Tutorial C5 Energy (B) 16/9/20
1 6.1 Uniform circular motion
– 1 6.2 Centripetal Force Tutorial C6 Post-Lab 2 & Pre-Lab 3 (A) (Wednesday)
18/9/20 1 7.0 GRAVITATION (Online Learning)
2 7.1 Gravitational force and field strength
W7 1 7.2 Gravitational potential energy Lecture C7 Post-Lab 3 & Pre-Lab 4 (B) Assignment
21/9/20 Tutorial C7 (Online Learning) Chapter 8
1 8.0 ROTATION OF RIGID BODY
– Lecture C8 Experiment 3 :
25/9/20 1 7.3 Satellite motion in a circular orbit Tutorial C7 Energy (A)
2 8.1 Rotational Kinematics Tutorial C8
W8 Experiment 4 :
28/9/20 1 9.0 SIMPLE HARMONIC MOTION Rotational Motion of Rigid

– 1 8.2 Equilibrium of a uniform rigid body Body (B)
2/10/20 1 8.3 Rotational dynamics
Post-Lab 3 & Pre-Lab 4 (A)
W9 (Online Learning)
5/10/20
Lecture C9 Post-Lab 4 & Pre-Lab 5 (B) UJIAN PENILAIAN
– Tutorial C8 (Online Learning) SUMATIF 2
9/10/20 (UPS 2)
Experiment 4 :
Rotational Motion of Rigid

1 8.4 Conservation of angular momentum Body (A)
PRACTICAL
WEEK/ DATE HOUR(S) TOPIC LECTURE/TUTORIAL REMARKS
12/10/20 MID-SEMESTER BREAK (SEM I)
–
18/10/20

W10 1 10.0 MECHANICAL AND SOUND WAVES Lecture C10 Experiment 5 :
19/10/20 Tutorial C9 Simple Harmonic Motion (B)
2 9.1 Kinematics of simple harmonic motion
– 1 9.2 Graphs of simple harmonic motion Post-Lab 4 & Pre-Lab 5 (A)
24/10/20 (Online Learning)

W11 1 10.0 MECHANICAL AND SOUND WAVES (continue..) Lecture C10 Post-Lab 5 & Pre-Lab 6 (B) `
26/10/20 1 9.2 Graphs of simple harmonic motion Tutorial C9 (Online Learning)
2 9.3 Period of simple harmonic motion
– Experiment 5 :
30/10/20 Simple Harmonic Motion (A)

W12 ½ 10.0 MECHANICAL AND SOUND WAVES (continue..) Lecture C10 Experiment 6 : UJIAN PENILAIAN
2/11/20 ½ 11.0 DEFORMATION OF SOLIDS Lecture C11 Standing waves (B) SUMATIF 3
2 10.1 Properties of waves Tutorial C10 (UPS 3)
– 1 10.2 Superposition of waves Lecture C11 Post-Lab 5 & Pre-Lab 6 (A)
6/11/20 1 11.0 DEFORMATION OF SOLIDS (continue..) (Online Learning)
2 10.2 Superposition of waves Tutorial C10
W13 Post-Lab 6 & Practical Test
9/11/20 1 10.3 Sound Intensity Lecture C11 Briefing (B)
1 11.0 DEFORMATION OF SOLIDS
– 2 10.4 Application of standing waves Tutorial C10 (Online Learning)
13/11/20 Experiment 6 :
1 10.5 Doppler Effect Lecture C12
W14 Tutorial C11 Standing waves (A)
16/11/20 1 12.0 HEAT CONDUCTION AND THERMAL EXPANSION Practical Test & Report Writing
1 11.1 Stress and strain
– (B)
20/11/20 Post-Lab 6 & Practical Test

W15 Briefing (A)
23/11/20 (Online Learning)

Practical Test & Report Writing
(A)

– 1 11.2Young’s Modulus
27/11/20
1 12.1 Heat Conduction Tutorial C12
WEEK/ DATE LECTURE/TUTORIAL
W16 HOUR(S) TOPIC PRACTICAL REMARKS
Lecture C13 Practical Test & Report Writing
30/11/20 1 13.0 GAS LAWS AND KINETIC THEORY Malaysia Day
– Tutorial C12 (B) 16/9/20
2 12.2 Thermal Expansion
4/12/20 Tutorial C13 Practical Test & Report Writing (Wednesday)
1 13.1 Ideal gas equations Lecture C13 (A)
W17 ½ 13.0 GAS LAWS AND KINETIC THEORY Lecture C14
7/12/20 ½ 14.0 THERMODYNAMICS
2 13.2 Kinetic Theory of Gases Tutorial C13
–
11/12/20 1 13.3 Molecular kinetic energy and internal energy Lecture C14

W18 1 14.0 THERMODYNAMICS Tutorial C14
14/12/20 1 14.1 First law of thermodynamics
1 14.2 Thermodynamic processes
–
18/12/20 1 14.3 Thermodynamic work

21/12/20 – STUDY WEEK
3/1/21

4/1/21 – PSPM I SESSSION 2020/2021
11/1/21

4.0 Reference Books
1. John D. Cutnell & Kenneth W. Johnson, ”Introduction to Physics”, 10th Wiley (Textbook)
2. James S. Walker (2007), “Physics”, 3th Edition, Pearson International Edition , ISBN 0-13- 227019-6. (Recommended)

3. Young H.D., Freedman R.A., (2016), Sears and Zemansky’s University Physics with Modern Physics, 14th edition, Pearson. ISBN 9781292100319

(Recommended)

4. Knight R.D., Jones B., Field S., (2015), College Physics a strategic approach, 3rd edition, Pearson. ISBN 9781292057156

5. Serway R.A., Vuille C., (2016), College Physics, Cengage Technology Edition, 10th edition, Cengage Learning. ISBN 9789814763332
6. Serway R.A., Vuille C., (2016), Supplement College Physics, Cengage Technology Edition, 10th edition, Cengage Learning. ISBN 9788000050508

7. Sulaiman Z.A.,… et al., (2015), Physics SF026, 1st edition, SAP Publications. ISBN 9789673214419

8. Poh L.Y., Leong K.O., Lee B.H., (2015), Physics: Semester 2, 2nd edition, Oxford Fajar Publications. ISBN 9789834716905
9. Sulaiman Z.A.,… et al., (2015), College Matriculation Physics SF026, 2nd edition, SAP Publications. ISBN 9789673214945

PREPARED BY: ENDORSED BY:
…........................................................ …………….......………..............

(HEAD OF PHYSICS UNIT) (HEAD OF SCIENCES DEPARTMENT)
DATE: DATE: