If I could turn back time -2

If I could turn back time, I will change into a better person. I will choose a friend that who has intelligent in himself. I also will stop smoking because now then I realise that smoking is wasting money. In 10 years time, if I don't smoke I'll probably get rich. I also will study hard for my SPM so that I will not get into this college. 

My dream is ruin by myself. I always dream of going to UITM (Universiti teknologi Mara). How could I know what is in the future. There's no use to regret now. I never thought I could like this nowadays. Indeed let bygones be bygones, I'm living my life now in peace.

-CICT's student confession 2

If I could turn back time -1

If I could turn back time, I will change my life into a better person. I will not make friends with those bad people. It would make me a better person and I would not be so naughty  as I am now. I will not make a bad things at school so that my parents would not have come to school and settle my problem with my discipline teacher. I would not escape my class so that my exam results would be more excellent. 

Other than that, I will not make my mother sad because of my attitude. I could make my mother more proud of and I could make her happy. I will show her that I could be  a better person as I am now. I will not start smoking cigarette because I know now it addicting me and I cannot stop it. I will not start drinking alcohol and doing all sort of bad things. Indeed, if I could turn back time, I will totally change my life  into a better person.

- CICT's student confession 1

EDE303/20129 - Incomplete Assesments

Figure below shows the status of your assessments:-

EDE303 Incomplete Assessments

Following students are required to take extra test (10%).

1. Adrian Gerald Lok (Quiz 1)
2. Azade Sahibu (Lab test)
3. Darryn Hong (Quiz 2)
4. Khyril Eddie Usba (Quiz 2)
5. M. Hilmi (Lab test)
6. M. Zulhimi (Midterm)
7. Ray Amos (Midterm)

Your can take the extra test at/on:-

Day/Date : Monday, 17 Dec 2012
Time : 0930-1100
Venue : B-01-18

Also, try to review the following definition/key terms:-

1. Clock
2. latch
3. edge-triggered flip-flop
4. Synchronous
5. Register
6. Settling time

EDE303/201209 - Lab 20%

Following are details on your lab project:

Day/date/time : Wed, 05/12/2012, 1400-1600
Venue             : Engineering Lab

Group 1
Adrian Gerald Lok
Azman Karman
 
Group 2
Ray Amos
Jason Librance


Group 3
Darren Clement
Mohd. Hisyam


Group 4
Darryn Hong
Zainulariffin



Group 5
Noreksan Gapar
Mohd. Zulhimi

Group 6
Khyril Eddie Usba
Mohd. Hilmi
Azade Sahibu

EDE124/201209 - Final Project Presentation

Details on your presentation:

Day/Date/time  : Friday, 14 Dec 2012, 1500-1700
Venue              : Engineering Lab
Time allocation : min15 min, max 30 min

Group A

Adrian

Darryn

M. Zulhilmi

Ray Amos

Group B

Melvin

Hisham

Fadzlinie

Khyril

Do make sure your project has the following details:-

Folio (min 25 pg, max 40 pg)
Chapter 1 : Introduction
Chapter 2 : System Overview
Chapter 3 : Goals and guidelines
Chapter 4 : Methodology
                 - Methods & techniques
                 - Flowchart
                 - Milestones, e.g:

  









Chapter 5 : Results
Chapter 6 : Discussion
                 - General constraints
                 - Successful results
Chapter 7 : Conclusion
                 - Future works


Poster

1. Introduction
2. Project Methodology
3. Advantages/potential
4. Students' details

Your final project will be justified based on the following grading rubric

EDE124/201209 - Lab Test 20%

Students are divided into two groups.

Group A
Adrian Gerald Lok
Azade Sahibu
Darryn Hong
Fadzlinie
Khyril Eddie Usba


Group B
Melvin Guading
Mohammad Ali Jamaha
Mohd. Hisyam
Muhammad Zulhimi
Ray Amos Ps Mojiniu
 
Following are details on your lab test:-

Day/Date : Friday, 7 Dec 2012
Time        : Group A (0915-1015), Group B (1030-1130)
Venue      : Engineering Lab
 
Please do revision on the given lab manual (Lab 1-8)

Try the following exercises:

1. Program a simple Fahrenheit to Celsius (F2C) conversion by using M-File
2. Program a simple Fahrenheit to Kelvin (F2K) conversion by using M-File
3. Simulate F2C by using Matlab Simulink
4. Simulate F2K by using Matlab Simulink

P/S: 
Do come on time. 
No extra time will be given for late comers (Maximum 1 hour).
No extra lab will be conducted for those that fail to attend.

EDE124/201209 - Incomplete Assessments

Figure below shows the status of your assessments. Only those students with valid excuse (MC letter / justification letter by parents) and good attendance record are allowed to redo the assessments.

Incomplete assessments

Extra assessments (15%)
You may gain extra 15 marks by participating in the upcoming Cosmopoint Short Program. Yo are required to demonstrate how Matlab Simulink can be used in modelling a problem. For instance, you can use the improved House Heat Model simulation.

Following are list of students that are allowed to participate and details of the program:-

Students;-
Adrian Gerald Lok
Azade B. Sahibu
Fadzlinie

Venue: Cosmopoint KK2
Day/date/time: Tues, 11 Dec 2012, 9-12 PM

EDE104/201206 - QUIZ1

EDE104-COMPUTER HARDWARE AND OPERATING SYSTEM

QUIZ1 (14/02/2012)

Section A: Chapter 1 (Introduction to Computer)

 

1. Define data and information. (Ch1, slide 5)
Data - Collection of unprocessed items. (e.g. text, numbers, images)
Information - Collection of data which has been processed into a meaningful form.


2. Five main components of a computer:- (Ch1, slide 10)
- Input device
- Output device
- System unit
- Storage
- Communication device

3. Three categories of system software:- (Ch1, slide 17)
- Operating system (e.g. Linux, Unix, Microsoft Windows etc.)
- Utility Program (e.g. Disk defragmenter, Scandisk)
- Device driver (e.g. printer, mouse, webcam etc.)


Section B: Chapter 2 (PC Hardware - System Unit)

1. Define the following:- (Ch2, slides 9-11)
Machine cycle – Series of steps performed by the processor to execute instructions.
Registers – Small and high-speed storage area that temporarily holds data and instructions.
System clock – Control timings of all computer operations by generates regular electronic pulses, or ticks that set operating pace of components of system unit.

2. What are the two type of memories? (Ch2, slide 12)
- Volatile
- Non-volatile

3. Fill in the blanks. (Ch2, slide 8)
1. Data 
2. Information 
3. Interprets and executes instructions
4. Performs calculations on data


4. Define internal buses and external buses. (Ch2, slide 28)
Internal bus – Also known as system bus. Two types of internal buses: data bus and address buss.
External bus – Also known as expansion bus. It used to connect external devices such as keyboard, mouse, monitor, printer etc.

EDE104/201206 - MIDTERM Revision

Your midterm examination consists of three (3) sections.
Section A : 20 marks
Section B : 10 marks
Section C : 10 marks

Check on :-
Ports and connectors
Hard drives & its functions
Operating System & its functions
Windows utilities programs & its functions

ALL THE BEST =)

UFS103 / 201206 - PLANNER

UFS103 - PC COMPETENCY
Classcode: 23-201205D300042
Credit hours : 3
Day/Time : Friday/1400-1600 , Friday/1600-1800 ,
Venue : /B01-18
Student Leader :


ASSESSMENTS EVALUATION
Assignment 1 (10%) : MS. WORD 2007 (PART 1)
Assignment 2 (10%) : MS. WORD 2007 (PART 2)
Assignment 3 (10%) : MS. EXCEL 2007  (PART 1)
Assignment 4 (10%) : MS. EXCEL 2007  (PART 2)
Assignment 5 (20%) : MS. EXCEL 2007  (PART 3)
Final Project Presentation (Group) (40% ) : MS. POWERPOINT 2007


WEEKLY LESSON PLAN

Week 1	4/6/2012		Registration
Week 2	15/6/2012		Introduction
Week 3	22/6/2012		Ms. Word
Week 4	29/6/2012		Ms.Excel (I)
Week 5	6/7/2012		Ms.Excel (II)
Week 6	13/7/2012		Ms. PowerPoint (I)
Week 7	20/7/2012		Ms. PowerPoint (II)
Week 8	27/7/2012		Final Project Presentation (I)
Week 9	3/8/2012		Final Project Presentation (II)
Week 10	6/8/2012		FINAL EXAM (*N/A)
	13/08/2012		Semester break

EDE104 / 201206 - PLANNER

EDE104 - COMPUTER HARDWARE & OPERATING SYSTEMS
Classcode: 23-201205D300052
Credit hours : 4
Day/Time : Monday/1100-1300 , Wednesday/0900-1100 ,
Venue : B-01-07/B01-18
Student Leader : Melvin Guading

ASSESSMENTS EVALUATION
Assignment 1 (10%) : Quiz1
Assignment 2 (10%) : Quiz2
Assignment 3 (10%) : Presentation

Assignment 4 (20%) : Group Project -  

A Step By Step To Re-Format And Installing Operating System (dual boot)

Midterm (10%) : Ch 1 - 6
Final exam : 40% 


CONTENT OUTLINE OF THE COURSE MODULE

1.  Introduction to Computers

1.1 What is Computer?

1.2 Computer Components

1.3 Networks and the Internet

1.4 Computer Software

1.5 Categories of Computer

1.6 Computer Applications in Society

2. The Components of the System Unit

2.1 The System Unit

2.2 Processor

2.3 Memory

2.4 Expansion Slots and Adapter Cards

2.5 Ports and Connectors

2.6 Buses

3. Input

3.1 What is Input Devices?

3.2 Keyboard

3.3 Pointing Devices

3.4 Voice Input

3.5 Digital Camera

3.6 Video Input

4. Output

4.1 What is output?

4.2 Display Devices

4.3 Printer

4.4 Speaker, Headphones and Earphones

4.5 Other Output Devices

5. Storage

5.1 Storage

5.2 Magnetic Disk

5.3 Optical Disk

5.4 Miniature Mobile Storage Media

5.5 Microfilm and Microfiche

6. Operating System and Utility Programs

6.1 System Software

6.2 Operating Systems

6.3 Operating System Functions

6.4 Types of Operating Systems

6.5 Stand-alone Operating Systems

6.6 Operating System Utility Programs

7.  Application Software

7.1 Application software

7.2 Business software

7.3 Graphic and multimedia software

7.4 Software for home, personal and educational use

8. Communications and Networks

8.1 Communications

8.2 Uses of computer communications

8.3 Networks

8.4 Communication devices

8.5 Physical transmission media

8.6 Wireless transmission media

9. The Internet and World Wide Web 

9.1 History of Internet

9.2 How Internet works

9.3 The World Wide Web

9.4 E-commerce

9.5 Other Internet services

10. Security, privacy and ethics

Computer security: risks and safeguards

Information privacy

Ethics and Information age

Internet security and privacy issues                  

Software theft

Information theft

LESSON PLAN

Week 1 4/6/2012 Registration 6/6/2012 Week 2 11/6/2012 Ch1 13/6/2012 Ch2 Week 3 18/6/2012 Ch3 20/6/2012 Ch4 Week 4 25/6/2012 Ch5 27/6/2012 Ch6 (P) Week 5 2/7/2012 Ch7 (P) 4/7/2012 MIDTERM (Ch1-6) Week 6 9/7/2012 Ch8 (P) 11/7/2012 Ch9 (P) Week 7 16/7/2012 Ch10 (P) 18/7/2012 Deadline : Assignment 4 Week 8 23/7/2012 Quizzes (1,2) Week 9 307/2012 Revision 1 Week 10 6/8/2012 FINAL EXAM 13/08/2012 Semester break

STUDENTS GROUPING

Group A - Chapter 6
Adrian Yong
Fadzlinie
Jayneson
Melvin
Noreksan
Zainulariffin

Group B - Chapter 7
Azman B. Karman
Amalul
Elinah
Farrah
Norfazelawati
Wellson

Group C - Chapter 8
Adrian Gerald Lok
Darryn Hong
Mohd. Zulhilmi
Ray Amos
Khyril

Group D - Chapter 9
Azade
Diuslin
Muhd. Afif
Mohd. Ali
Mohd. Hisham
Muhd. Sobry

EDS105 / 201206 - PLANNER

EDS105 - FUNDAMENTAL OF PROGRAMMING
Classcode: 23-201205D300055
Credit hours : 3
Day/Time : Monday/0900-1100 , Thursday/0900-1100 ,
Venue : B01-18
Student Leader : Azman B. Karman

ASSESSMENTS EVALUATION

Following are your assessments evaluation:
Assignment 1 (Quiz based on Ch2) : 10%
Assignment 2 (Lab 1,2) : 10%
Assignment 3 (Lab 3,4) : 10%
Assignment 4 (Lab 5,6,7) : 20%
Midterm (Ch 1 - 6) : 10%
Final exam : 40%

WEEKLY LESSON PLAN

Week 1	4/6/2012		Registration
	7/6/2012
Week 2	11/6/2012		Ch1
	14/6/2012		Ch2
Week 3	18/6/2012		Ch2 cont.
	21/6/2012		Ch3(Lab 1,2;            deadline: 25 June 2012)
Week 4	25/6/2012		Ch4
	28/6/2012		Ch5
Week 5	2/7/2012		Revision (Ch1-5)
	5/7/2012		MIDTERM (Ch1-5)
Week 6	9/7/2012		Ch6 (Lab 3,4;            deadline: 12 July 2012)
	12/7/2012		Ch7
Week 7	16/7/2012		Ch8,9
	19/7/2012		Lab 5,6,7                  deadline: 23 July 2012
Week 8	23/7/2012		Quiz
Week 9	30/7/2012		Revision
Week 10	6/8/2012		FINAL EXAM
	13/08/2012		Semester break

EDE303/201201 - Final Examination Revision

Your final examination consists of three (3) sections.
Answer ALL questions
Section A : 8 marks
Section B : 15 marks
Section C : 17 marks

Review:-
Quiz 1
Assignment 2,3,4
Midterm

Check on :-
Binary-hexadecimal conversion
Combinational Logic Circuit
Rules of Boolean Algebra
Karnaugh Map
Edge-triggering
D-flip flop
J-K flip flop
Shift register

ALL THE BEST =)

EDE104/201201 - Final Examination Revision

Your final examination consists of three (3) sections.
Section A : 10 marks - Answer all questions
Section B : 10 marks - Answer all questions
Section C : 20 marks - Answer ONE (1) question only

Check on :-
Quiz 1, Quiz 2 and Midterm
Hard drives & its functions
Types of application software
Network
ALL given assignments

ALL THE BEST =)

EDE303/201201 - Quizzes Revision

Your quizzes consists of three (3) sections.
Section A : 10 marks
Section B : 10 marks
Section C: 20 marks


Following are some examples for your revision:-
Example 7-1, pg.374
Example 7-5, pg.383
Example 7-6, pg.385
Example 9-1, pg.498

Try to understand the folowing:-
difference between S-R latch and S-R flip-flop
difference between D latch and D flip-flop

ALL THE BEST =)

EDE104/201201 - MIDTERM Revision

Your midterm examination consists of three (3) sections.
Section A : 20 marks
Section B : 10 marks
Section C: 10 marks

Check on :-
Quiz 1 & Quiz 2
Hard drives & its functions
Operating System
Supporting hard drives - Utility programs

ALL THE BEST =)

EDE303/201201 - MIDTERM Revision

Your midterm examination consists of three (3) sections.
Section A : 6 marks
Section B : 10 marks
Section C: 24 marks


Following are some examples for your revision:-
Example 2-28, pg.78
Section 4-1 Review, pg.185
Example 4-28, pg.218


Also, check on :-
Binary-hexadecimal conversion
Combinational Logic Circuit
Rules of Boolean Algebra
Karnaugh Map

ALL THE BEST =)

EDE104/201201 - Assignment 4 (20%)

Front cover:-

Subject code/name: EDE 104 – PC Hardware & Operating System

Title: A Step By Step To Re-Format And Installing Operating System (dual boot)

Group members

Date of submission

Contents:-

Laptop specifications

Software specification

A Step By Step To Re-Format And Installing Operating System (dual boot)

Setting:

Font type : Calibri

Font size : 11

Line spacing : 1.5

Alignment : Justify

Header : A Step By Step To Re-Format And Installing Operating System (dual boot)

Footer (bottom-right) : Page number

Sum-of-Products (SOP) Form

When two or more product terms are summed by Boolean addition, the resulting expression is sum-of-products (SOP). Eg:-

Sum-of-Product (SOP)

The expression above has a domain made up of the variables A,B,C and D. However, notice that the complete set of variables is not represented in the first two terms of the expressions.

A standard SOP expression is one in which all the variables in the domain appear in each product term in the expression. Standard SOP expressions are important in constructing truth tables and in Karnaugh Map simplification method.

Any nonstandard SOP expression can be converted to the standard form using Boolean algebra (Rule 6).

Step 1. 

Multiply each nonstandard product term by a term made up of the sum of a missing variable and its complement.

Step2.

Repeat step 1 until all resulting product terms contain all variables in the domain in either complemented or uncomplemented form. In converting a product term to standard form, the number of product terms is doubled for each missing variable.

Convert Boolean expression into standard SOP form.
Refer to Example 4-13, page 202

Missing variables in nonstandard form =2

Number of product terms in nonstandard form =3

After converting to standard SOP form = 3 + (2x2) =7

Thus, number of product terms in standard form = 7

Reference:-
Digital Fundamentals, by Floyd ( page 200-202)

EDE303/201201 - Chapter 4 (Quiz)

EDE303 - Digital Electronics (Quizzes at the end of the chapter)


Question 1
The associative law for addition is normally written as
a. A + B = B + A
b. (A + B) + C = A + (B + C)
c. AB = BA
d. A + AB = A


Question 2
The Boolean equation AB + AC = A(B+ C) illustrates
a. the distribution law
b. the commutative law
c. the associative law
d. DeMorgan’s theorem


Question 3
The Boolean expression A . 1 is equal to
a. A
b. B
c. 0
d. 1


Question 4
The Boolean expression A + 1 is equal to
a. A
b. B
c. 0
d. 1


Question 5
A Boolean expression that is in standard SOP form is
a. the minimum logic expression
b. contains only one product term
c. has every variable in the domain in every term
d. none of the above

How Hard Drives Work?

Hard drives have one, two, or more platters that stack together and spin in unison.

Read/write heads are controlled by an actuator and move in unison across the disk surfaces as the disks rotate on a spindle.

Figure below shows a hard drive with four platters:-

A hard drive with four platters.

1. All eight sides of these four platters are used to store data, although on some hard drives the top side of the first platter just holds information used to track data and manage the disk.

2. Each side (surface), of one hard drive platter is called a head. (Don’t confuse this with read-write head)

3. The four platters in the figure above has eight heads.

4. Each head is divided into tracks and sectors. Eight tracks (one on each head) make one cylinder.

5. As with floppy disks, data is written to a hard drive beginning at the outermost track.

6. The entire first cylinder is filled before the read/write heads move inward and begin filling the second cylinder.

7. A hard drive requires a controller board filled with ROM programming to instruct the read-write heads how, where and when to move across the platters and write and read data. 

8. Hard drive controller mounts on a circuit board or inside the drive housing and is an integral part of it. The controller and drive are permanently attached to one another.

Reference:-

A+ GUIDE TO Managing and Maintaining Your PC, by Jean Andrews

EDE303/201201 - QUIZ1

EDE303-DIGITAL ELECTRONICS
QUIZ1 (23/02/2012)


Question 1
Express the decimal number -19 as an 8-bit number in:-
a) sign-magnitude form
b) 1's complement form
c) 2's complement form

Chapter 2, page 63, Example 2-14

Question 2
Convert the decimal number 2590 to hexadecimal by repeated division.
a) Repeated division by 2
b) Repeated division by 16

Chapter 2, page 78, Example 2-28

Reference:-
Digital Fundamentals, by Floyd


Score (over 10) :-

Largest = 6 (x2)

Smallest = 0 (x1)

Mean = 2.25

Mode = 1, 2, and 2.5

Range = 6

EDE303 / 201201 - PLANNER

EDE303 - DIGITAL ELECTRONICS
Classcode: 23-201201D100057
Credit hours : 4
Day/Time : Thursday/1300-1500
Venue : B-01-13
Student Leader : Tan Wee Keong

ASSESSMENTS EVALUATION
Assignment 1 (10%) : Lab 1 - Digital Logic Gates
Assignment 2 (10%) : Lab 2 - Boolean Algebra
Assignment 3 (10%) : Lab 3 - Simplification of Boolean Functions using K-Map
Assignment 4 (20%) : Lab 4 - Combinational of Logic Functions
Midterm (10%) : Ch 1 - 6
Final exam : 40% 


LESSON PLAN

Week 1

30/01/2012

Introduction

Week 2

06/02/2012

Chapter 1

Week 3

13/02/2012

Chapter 2

Week 4

20/02/2012

Chapter 3

Week 5

26/02/2012

Chapter 4

Week 6

05/03/2012

Chapter 5

Week 7

12/03/2012

Chapter 6

MIDTERM

19/03/2012

Chapter 1-6

BREAK

26/03/2012

Week 8

02/04/2012

Chapter 7a

Week 9

09/04/2012

Chapter 7b

Week 10

16/04/2012

Chapter 7c

Week 11

23/04/2012

Chapter 8

Week 12

30/04/2012

Chapter 9

Week 13

06/05/2012

Revision 1

Week 14

14/05/2012

Revision 2

FINAL EXAM

24/05/2012

CONTENT OUTLINE OF THE COURSE / MODULE

Chapter 1: Introduction
- Digital vs Analog systems
- Digital system hierarchy
- Logic Devices

Chapter 2: Number Systems
- Decimal numbers
- Binary numbers
- Octal numbers
- Hexadecimal numbers
- Binary arithmetic

Chapter 3: Logic Gates
- AND, OR, NOT gates
- NAND, NOR, special gates

Chapter 4: Boolean Algebra
- Boolean arithmetic
- Boolean identities
- Boolean properties
- DeMorgan’s Theorems

Chapter 5: Karnaugh Maps
- K Maps
- Boolean Expression
- Logic Simplifications
- Minterms & Maxterms

Chapter 6: Combinational Logic Functions
- Half-Adder
- Full Adder
- Decoder & Encoder
- Multiplexer & Demultiplexer
- Multiple combinational circuits

Chapter 7a: Counters
- SR latch
- Clocked SR latch
- D latch, JK flip-flop

Chapter 7b: Counters
- Asynchronous counters
- Synchronous counters

Chapter 8: Shift Registers
- Serial in serial out
- Parallel in serial out
- Serial in parallel out
- Parallel in serial out
- Universal shift register
- Ring counters

Chapter 9: Digital-Analog Conversion
- Analog-to-Digital Converter (ADC)
- Digital-to-Analog Converter (DAC)



MATERIALS:-
Book - RM8.9
Handouts (slides) - RM2

EDE104 / 201201 - PLANNER

EDE104 - COMPUTER HARDWARE & OPERATING SYSTEMS
Classcode: 23-201201D100050
Credit hours : 4
Day/Time : Tuesday/1300-1600
Venue : B-01-08/B01-18
Student Leader : Tan Wee Keong

ASSESSMENTS EVALUATION
Assignment 1 (10%) : Quiz1 (Based on Chapter 1,2)
Assignment 2 (10%) : Quiz2 (Based on Chapter 3,4,5)
Assignment 3 (10%) : Presentation

Assignment 4 (20%) : Group Project -  

A Step By Step To Re-Format And Installing Operating System (dual boot)

Midterm (10%) : Ch 1 - 6
Final exam : 40% 


LESSON PLAN

Week 1

30/01/2012

Introduction

Week 2

06/02/2012

Ch 1,2

Week 3

13/02/2012

Quiz 1

Week 4

20/02/2012

Ch 3,4,5

Week 5

26/02/2012

Quiz 2

Week 6

05/03/2012

Chapter 6 (Presentation1)

Week 7

12/03/2012

Group Project

MIDTERM

19/03/2012

Chapter 1-6

BREAK

26/03/2012

Week 8

02/04/2012

Chapter 7    (Presentation2)

Week 9

09/04/2012

Chapter8 (Presentation3)

Week 10

16/04/2012

Chapter 9 (Presentation4)

Week 11

23/04/2012

Chapter10 (Presentation5)

Week 12

30/04/2012

Assemble PC (Assignment 3)

Week 13

06/05/2012

Revision 1

Week 14

14/05/2012

Revision2

F/EXAM

23/05/2012

Assignment (10%) : Presentation

6. OPERATING SYSTEM & UTILITY PROGRAMS

SAMSON JETHROW PATRICK

TAN WEE KEONG

7. APPLICATION SOFTWARE

MUHAMMAD HILMI B RASIMAN

GEOFFREY BIN JIKANAK

8. COMMUNICATION NETWORKS

CARLSON MARTIN

CARENNAWELL JOEL

9. THE INTERNET & WORLD WIDE WEB

CHARLIE ALDRIDGE N ANTIRING

MOHD SHAFIE BIN OSMAN

10. SECURITY, PRIVACY & ETHICS

KHAIRUL NIZAM BIN MD KASSIM

JOEL NICKOLSON LAWERENCE

Assignment 4 (20%) : Group Project - A Step By Step To Re-Format And Installing Operating System (dual boot)

GROUP 1	GROUP 2
CARLSON MARTIN	GEOFFREY BIN JIKANAK
CARENNAWELL JOEL	MOHD SHAFIE BIN OSMAN
JOEL NICKOLSON LAWERENCE	SAMSON JETHROW PATRICK
CHARLIE ALDRIDGE N ANTIRING	TAN WEE KEONG
KHAIRUL NIZAM BIN MD KASSIM	MUHAMMAD HILMI B RASIMAN

UFS103 / 201201 - PLANNER

UFS103 - PC COMPETENCY
Classcode: 23-201201D100017
Credit hours : 3


ASSESSMENTS EVALUATION
Assignment 1 (10%) : MS. WORD 2007 (PART 1)
Assignment 2 (10%) : MS. WORD 2007 (PART 2)
Assignment 3 (10%) : MS. EXCEL 2007  (PART 1)
Assignment 4 (10%) : MS. EXCEL 2007  (PART 2)
Assignment 5 (20%) : UNDERSTANDING OF MS. OFFICE TOOLS
Final Project Presentation (Group) (40% ) : MS. POWERPOINT 2007


LESSON PLAN

Week 1

30/01/2012

Introduction

Week 2

06/02/2012

Ms.Word-1

Week 3

13/02/2012

Ms.Word-2

Week 4

20/02/2012

Ms.Excel-1

Week 5

26/02/2012

Ms.Excel-2

Week 6

05/03/2012

Ms.PP-1

Week 7

12/03/2012

Ms.PP-2

MIDTERM

19/03/2012

BREAK

26/03/2012

Week 8

02/04/2012

Presentation-1

Week 9

09/04/2012

Presentation-2

Week 10

16/04/2012

Blogging

Week 11

23/04/2012

Ms.Word - 3

Week 12

30/04/2012

Ms.Excel - 3

Week 13

06/05/2012

Ms.PP-3

Week 14

14/05/2012

FINAL EXAM

21/05/2012

GENERAL RULES FOR ALL STUDENTS

ATTENDANCE

Attendance for both the lectures and the tutorials is compulsory.  Any student not attending a class should provide a medical certificate or a written justification (signed by a parent or guardian in the case of a full-time student).  Should a student fail to do so, he/she will be considered truant.

Should a student attendance for a given subject is lower than 70 %, he/she will not be allowed to sit for the final examination.  Punctuality is equally important.  The lecturer is entitled to refuse entry into the classroom to any student that would present him/herself late (Tolerance +/- 10 min).

ASSESSMENTS

Student's assessments will be evaluated based on the breakdown given in each subjects. Please refer to your subject's label (eg: UFS103/EDS105/EDE124 etc.) for further details.

If a student failed to attend any class or missed any assessment, kindly submit your medical certificate (MC) in the next class. Late submission WILL NOT BE ENTERTAINED and NO ASSESSMENT EVALUATION (lab/quiz/test/midterm/presentation slot) will be conducted for them.

LAB RULES

1. Be respectful, follow your lecturer's instructions, and don't take shortcuts.

2. Please do not bring in any food or drink except just water, which must be stored on the floor.

3. Do and finish your own given assignment, and no body is allowed to surf any irrelevant web sites or play computer games. 

4. Keep your desk free from any disturbance objects (eg. bags, pencil case, water bottles etc)

5. Stay, work and talk in your own work station area. Don't leave your work area unless instructed by the lecturer.

6. CLEANUP: Clean your work area before leaving!



WISH YOU GUYS ALL THE BEST & HAPPY LEARNING =)