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Master of Science in Physics– Mixed Mode (MSCP2)

 (MQA/SWA0306)
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Universiti Teknologi Malaysia
Programme Name Master of Science in Physics
Final Award
 Master of Science in Physics
NEC Code
 0533
Programme Code MSCP2
Professional or Statutory Body of Accreditation
 MALAYSIAN QUALIFICATIONS AGENCY (MQA)
Language(s) of Instructions
 Bahasa Melayu & English
Mode of Study Conventional
Mode of operation Self-govern
Study Scheme Full Time and Part time
Study Duration

Full Time: Minimum:  1½ years; Maximum: 3 years

Part Time: Minimum: 2½ years; Maximum: 4 years
Type of Semester No. of Semesters No. of weeks per semester
Full Time Part Time  Full Time Part Time
Normal 3 6 14 14

 

CURRICULUM STRUCTURE

 INTAKE SEMESTER 1 2023/2024 (OCTOBER 2023)

Semester 1

COURSE CODE COURSE CREDIT
UHXX 6XX3 University general course 3
MSCP 1303 Research Methodology 3
MSCP 1203 Advanced Quantum Mechanics 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

Semester 2

COURSE CODE COURSE CREDIT
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3
MSCP 1180 Research Proposal 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

Semester 3

COURSE CODE COURSE CREDIT
MSCP 2180 Dissertation 18
Total 18

CURRICULUM STRUCTURE

 INTAKE SEMESTER 2 2023/2024 (FEBRUARY 2024) 

Semester 1

COURSE CODE COURSE CREDIT
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3
MSCP 1303 Research Methodology 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

Semester 2

COURSE CODE COURSE CREDIT
UHXX 6XX3 University general course 3
MSCP 1203 Advanced Quantum Mechanics 3
MSCP 1180 Research Proposal 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

Semester 3

COURSE CODE COURSE CREDIT
MSCP 2180 Dissertation 18
Total 18

Note : Dissertation  can only be taken after completion of all courses

LIST OF COURSES 

Core courses

COURSE CODE COURSE CREDITS
MSCP 1303 Research Methodology 3
MSCP 1203 Advanced Quantum Mechanics 3
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3

 

Elective courses

COURSE CODE COURSE CREDITS
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3

 

Research Courses

COURSE CODE COURSE CREDITS
MSCP 1180 Research Proposal 3
MSCP 2180 Dissertation 18

Please refer to Appendix C for the synopsis of each course.

 

 

 

 

Postgraduate Entry Requirements

DOCTOR OF PHILOSOPHY

  • A Master’s Degree from Universiti Teknologi Malaysia or any other Institutions of higher learning recognised by the Senate; or
  • Other qualifications equivalent to a Master’s degree and experience in the relevant field recognised by the Senate; or
  • Candidates who a currently registered in a Master’s Degree programme at Universiti Teknologi Malaysia, and approved by the Graduate Studies Committee of the respective faculty and the Senate.

MASTER’s DEGREE

  • A Bachelor’s Degree with good honours from Universiti Teknologi Malaysia or any other institution of higher learning recognised by the Senate; or
  • A qualification equivalent to a Bachelor’s Degree and experience in the relevant field recognised by the Senate.

 

SPECIAL ADMISSION REQUIREMENTS

 

  1. A Bachelor’s Degree* from Universiti Teknologi Malaysia or other Institutes of Higher Education, or equivalent qualifications recognized by the Senate is subject to work experience in the field of Physics and related areas:

 

Bachelor’s Degree CGPA

Working Experience

≥ 3.00

N/A

2.70 – 3.00

2 years

2.50 – 2.70

4 years

2.30 – 2.50

6 years

 

 

*The Bachelor’s Degree in the following fields:

  • Physics, or
  • Engineering, Education Physics, and other fields related to Physics may be considered subject to the Department panel’s approval.

 

The candidate must have completed a minimum of six (6) core Physics courses, with a minimum of 3 credit hours for each course and achieved a minimum grade of C+ or higher for each of these core Physics courses.

 

OR

 

The candidate undergoes a one-semester pre-Master’s program that require the candidate to take 2 to 4 (according to the candidate’s needs) undergraduate courses such as Quantum Mechanics, Solid State Physics, Electromagnetism and Mathematical Physics (subject to the Department Panel’s recommendation).

 

  1. International candidates must meet one of the following English language proficiency requirements:
  2. Test of English as a Foreign Language, TOEFL (iBT) score of 60 and above; or
  3. International English Language Testing System (IELTS) band score of 6.0 and above; or
  • ELS Certified Intensive English Program (CIEP) with Level 108; or
  1. Any examination aligned with The Common European Framework of Reference (CEFR) as follows:
    1. Cambridge English Qualification (CEQ) with a score of B2 First (FCE), C1 Advanced (CAE), C2 Proficiency (CPE); or
    2. PTE Academic with a score of 59 and above; or
    3. Malaysian University Entrance Test (MUET) Band 4 and above.

OR

 

Exemptions from the English language requirement may be granted to international students who have completed their secondary education or graduated from countries listed by the Student Recruitment and Admission Division (SRAD).

 

OR

 

The international candidates must attend one of the following programs:

 

  1. Intensive English Program (IEP) conducted by the Language Academy, UTM and achieve an IELTS band score of 6.0 and above or pass an examination aligned with CEFR with the specified score; or
  2. ELS Certified Intensive English Program (CIEP) with Level 108.
  3. People with disabilities (OKU) are not accepted into this program (including color blindness).

 

  1. Candidates with APEL T-7 (Accreditation of Prior Experiential Learning) certificates may be considered for admission (subject to Faculty approval).

 

Graduates those are strong in Physics knowledge and able to

  1. apply their knowledge and skills in planning, analysis, design and supervision of work in physics.
  2. solve problems logically, analytically and creatively with confidence..
  3. work in society with diverse background to achieve common goals.
  4. communicate effectively and work in a team to achieve excellence.
  5. appreciate entrepreneurship and foresee opportunities towards job-creation for the nation.
Code Intended Learning Outcomes Teaching and Learning Methods Assessment

PO1

 

Integration and Generation of Knowledge in Sciences

(C5, P5, A4)

 Ability to integrate and generate in-depth relevant scientific knowledge for the benefit of related physics disciplines. Lectures, seminars, assignments, directed reading, active learning, laboratory work Examinations, presentations, written assignments, problem-based exercises, and dissertation.

PO2

 

Experimental and project works.

(C5, A4)

 Ability to apply knowledge to perform project works scientifically to explain physics phenomena. Lectures, assignments, research project, directed reading, simulation exercises,  problem-based learning Examinations, written assignments, research dissertation, presentations, problem-based exercises.

PO3

 

Trouble-shooting Techniques and Skills, Communication Skills, Team Working and Leadership

(P5, A4)

 Ability to analyze and solve physics problems and also ability to evaluate situations and react responsibly to communicate, cooperate and lead a team among peers and others. Supervised project, lectures, individual assignment, seminar group assignments. Research dissertation, examinations, written assignments, presentations, group reports

PO4

 

Professionalism and Ethics

(A2)

 Ability to integrate professional ethics in life, organization, society and individual to fulfill the needs of mankind in both spiritual and material aspects. Lecture, supervised project, group assignment, seminar Research dissertation, Written assignments, presentations, log book.

PO5

 

Continuous Education

(A2)

 Ability to acquire knowledge independently for continuous personal and professional development Research work, dissertation, individual assignments Research dissertation, written assignments

PO6

 

Entrepreneurship

(P1)

 Ability to explain managerial concepts and identify business opportunities and initiate action to achieve it. Lecture, research work Research dissertation
No. Classification Credit Hours Percentage Standard (QA)
1. Compulsory University Subjects 6 14.3 50%
2. Program Core 9 21.4
3. Program Electives 6 14.3
4. Research 21 50 50%
  Total 42 100 100%

 

 

This is a 3-semester full-time course comprising a total of 42 credits that combines taught courses and research components. The taught courses include 4 core courses (12 credits), 2 elective Physics courses (6 credits), 1 university compulsory course (3 credits). As the research components are Research Proposal (3 credits) and Dissertation (18 credits). Specialized topics for the dissertation can be selected from any of the four areas of research in the physics department which are material physics, optics physics, nuclear and radiation physics, and instrumentation and computational physics. Typical distribution of subjects are as follows:

 

CURRICULUM STRUCTURE

 

INTAKE SEMESTER 1 2023/2024 (OCTOBER 2023)

 

Semester 1

COURSE CODE COURSE CREDIT
UHXX 6XX3 University general course 3
MSCP 1303 Research Methodology 3
MSCP 1203 Advanced Quantum Mechanics 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

 

Semester 2

COURSE CODE COURSE CREDIT
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3
MSCP 1180 Research Proposal 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

Semester 3

COURSE CODE COURSE CREDIT
MSCP 2180 Dissertation 18
Total 18

 

 

 CURRICULUM STRUCTURE

 

INTAKE SEMESTER 2 2023/2024 (FEBRUARY 2024)

 

Semester 1

COURSE CODE COURSE CREDIT
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3
MSCP 1303 Research Methodology 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

 

Semester 2

COURSE CODE COURSE CREDIT
UHXX 6XX3 University general course 3
MSCP 1203 Advanced Quantum Mechanics 3
MSCP 1180 Research Proposal 3
Elective Course (Choose 1 Course – 3 credits)
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices Fabrication 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3
Total 12

 

 

Semester 3

COURSE CODE COURSE CREDIT
MSCP 2180 Dissertation 18
Total 18

 

 

Note : Dissertation  can only be taken after completion of all courses

 

 

 

LIST OF COURSES

 

Core courses

COURSE CODE COURSE CREDITS
MSCP 1303 Research Methodology 3
MSCP 1203 Advanced Quantum Mechanics 3
MSCP 1403 Electrodynamics 3
MSCP 1503 Advanced Solid-State Physics 3

 

Elective courses

COURSE CODE COURSE CREDITS
MSCP 1113 Materials Characterization and Analysis I 3
MSCP 1213 Materials Characterization and Analysis II 3
MSCP 1313 Advanced Condensed Matter Physics 3
MSCP 1123 Elementary Particles 3
MSCP 1223 Nuclear Techniques and Analysis 3
MSCP 1133 Computational Space Physics 3
MSCP 1233 Scientific Computing 3
MSCP 1333 Semiconductor Devices 3
MSCP 1143 Laser-Matter Interaction 3
MSCP 1243 Advanced Fibre Optics 3
MSCP 1103 Mathematical Method for Physics 3

 

Research Courses

COURSE CODE COURSE CREDITS
MSCP 1180 Research Proposal 3
MSCP 2180 Dissertation 18

 

 

Please refer to Appendix C for the synopsis of each course.

 

SPECIAL ADMISSION REQUIREMENTS

 

  1. A Bachelor’s Degree* from Universiti Teknologi Malaysia or other Institutes of Higher Education, or equivalent qualifications recognized by the Senate is subject to work experience in the field of Physics and related areas:

 

Bachelor’s Degree CGPA Working Experience
≥ 3.00 N/A
2.70 – 3.00 2 years
2.50 – 2.70 4 years
2.30 – 2.50 6 years

 

 

*The Bachelor’s Degree in the following fields:

  • Physics, or
  • Engineering, Education Physics, and other fields related to Physics may be considered subject to the Department panel’s approval.

 

The candidate must have completed a minimum of six (6) core Physics courses, with a minimum of 3 credit hours for each course and achieved a minimum grade of C+ or higher for each of these core Physics courses.

 

OR

 

The candidate undergoes a one-semester pre-Master’s program that require the candidate to take 2 to 4 (according to the candidate’s needs) undergraduate courses such as Quantum Mechanics, Solid State Physics, Electromagnetism and Mathematical Physics (subject to the Department Panel’s recommendation).

 

  1. International candidates must meet one of the following English language proficiency requirements:
  2. Test of English as a Foreign Language, TOEFL (iBT) score of 60 and above; or
  3. International English Language Testing System (IELTS) band score of 6.0 and above; or
  • ELS Certified Intensive English Program (CIEP) with Level 108; or
  1. Any examination aligned with The Common European Framework of Reference (CEFR) as follows:
    1. Cambridge English Qualification (CEQ) with a score of B2 First (FCE), C1 Advanced (CAE), C2 Proficiency (CPE); or
    2. PTE Academic with a score of 59 and above; or
    3. Malaysian University Entrance Test (MUET) Band 4 and above.

OR

 

Exemptions from the English language requirement may be granted to international students who have completed their secondary education or graduated from countries listed by the Student Recruitment and Admission Division (SRAD).

 

OR

 

The international candidates must attend one of the following programs:

 

  1. Intensive English Program (IEP) conducted by the Language Academy, UTM and achieve an IELTS band score of 6.0 and above or pass an examination aligned with CEFR with the specified score; or
  2. ELS Certified Intensive English Program (CIEP) with Level 108.
  3. People with disabilities (OKU) are not accepted into this program (including color blindness).

 

  1. Candidates with APEL T-7 (Accreditation of Prior Experiential Learning) certificates may be considered for admission (subject to Faculty approval).

 

Graduates of the program can work as

  • Research officer – Research Institute, university and industries
  • Science Officer — Research Institute, university and industries
  • Physics Teacher – Schools and colleges
  • Quality control officer – Industries
  • Industrial materials scientist
  • Material testing and analysis expert

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