HARMATTAN SEMESTER 100 LEVEL

Course code

Course Title

L  T  P

Units 

Status

CHM 101

General Chemistry I

2   1   0

3

C

CHM 107

Experimental Chemistry I

0   0   3

1

C

CVE 101

Engineering in Society

2   0   0

2

C

MEE 101

Engineering Drawing I

1   0   3

2

C

MTH 101

General Mathematics I

2   1   0

3

C

PHY 101

General Physics I

2   1   0

3

C

PHY 107

Experimental Physics I

0   0   3

1

C

GNS 101

Use of English I

2   0   0

2

R

GNS 103

Use of Library

1   0   0

1

R

 

TOTAL UNITS

12  3   9

18

 

                               

L-Lecture; T- Tutorial; P-Practicals; C-Compulsory; R-Required

 

                                RAIN SEMESTER 100 LEVEL

Course code

Course Title

L  T  P

Units

Status

CHM 102

General Chemistry II

2   1   0

3

C

CHM 108

Experimental Chemistry II

0   0   3

1

C

MEE 102

Workshop Technology I

1   0   3

2

C

MEE 104

Engineering Drawing II

1   0   3

2

C

MTH 102

General Mathematics II

2   1   0

3

C

MTH 104

General Mathematics III

2   1   0

3

C

PHY 102

General Physics II

2   1   0

3

C

PHY 108

Experimental Physics II

0   0   3

1

C

GNS 102

Use of English II

2   0   0

2

R

GNS 104

Nigerian Peoples and Culture

2   0   0

2

R

 

TOTAL UNITS

14  4   12

22

 

 

HARMATTAN SEMESTER 200 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L  T  P

Units

Status

CSC 201

Structured Programming

-

2   0    3

3

C

EEE 201

Applied Electricity

PHY102

2   1    0

2

C

EEE 231

Engineering Mathematics  I

MTH101

2   1    0

3

C

EEE 291

Applied Electricity Laboratory I

PHY108

0   0    3

1

C

MEE 201

Engineering Materials

PHY102

2   0    1

2

C

MEE 203

Engineering Mechanics I

PHY101

2   0    1

2

C

MEE 207

Basic Thermodynamics

-

2   1    1

3

C

STA 221

Statistics for Physical Sciences & Engineering

MTH101

3   1    0

3

C

GNS 203

Introduction to Entrepreneurial Skills

-

2   0    0

2

R

GNS 211

Basic French

-

2   0    1

2

R

 

TOTAL UNITS

 

19  4   10

23

 

 

                RAIN SEMESTER 200 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L   T    P

Units

Status

ABE 202

Basic Agriculture and Bio-Resources Engineering

PHY102

1   1    0

2

C

AGN 202

Principles of Soil Science

-

2    0   2

2

C

CVE 206

Strength of Materials

-

3    1    1

3

C

EEE 202

Applied Electricity II

EEE201

2    0    1

2

C

EEE 232

Engineering Mathematics  II

MTH102

3    1    0

3

C

EEE 292

Applied Electricity Laboratory II

EEE291

0    0    3

1

C

MEE 204

Engineering Mechanics II

MEE203

2    0    2

2

C

MEE 206

Basic Fluid Mechanics

-

2    0    1

2

C

MEE 208

Workshop Technology II

MEE102

1    0    3

2

C

GNS 204

Logic and Philosophy

-

2    0    0

2

R

GNS 212

Introduction to Information and Communication Technology

-

2    0    0

2

R

 

TOTAL UNITS

 

19   2    13

23

 

 

                LONG VACATION- 8 WEEKS

Course code

Course Title

Pre-requisite/ co-requisite

L   T    P

Units

Status

ABE 200

 Students Workshop Experience Programme, SWEP I

 

0    0    30

2

C

 

TOTAL UNITS

 

0    0    30

2

 

HARMATTAN SEMESTER 300 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L   T   P

Units

Status

ABE 301

Workshop Practices

 

0   0   3

2

C

ABE 303

Farm Electrification

EEE201

2   0   3

2

C

ABE 305

Environment and Agriculture

-

1   0   1

1

C

ABE 307

Biotechnology and Bio-resources Studies

-

1   0   1

1

C

ABE 309

Farm Mechanisation

 

2   0   2

2

C

AGN 321

Production Techniques of Arable and Permanent Crops

-

2   0   2

2

C

ANS 321

Animal Science for Agricultural Engineers

-

2   0   2

2

C

MEE 307

Strength of Materials Lab

CVE201

2   0   1

1

C

EEE 331

Engineering Mathematics  III

EEE231

3   1   0

3

C

MEE 301

Mechanics of Machines I

MEE203

2   1   3

2

C

MEE 313

Engineering Metallurgy

CVE202

2   0   1

2

C

MEE 315

Mechanics of Machines Laboratory I

MEE203

0   0   3

1

C

 

TOTAL UNITS

 

19  2  22

21

 

 

RAIN SEMESTER 300 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L   T   P

Units

Status

AEE 304

Fundamentals of Farm Management

-

2   1   0

2

C

ABE 302

Basic Agricultural Soil Mechanics

AGY202

2   0   2

2

C

ABE 304

Computer Aided Design and Machine Drawing

MEE101,102

1   1   2

2

C

ABE 306

Agricultural Land Surveying

-

1   0   3

2

C

ABE 308

Basic Concepts in Environmental Engineering

-

2   0   0

2

C

ABE 310

Farm Mechanics

MEE206

1   0   3

1

C

EEE 332

Engineering Mathematics  IV

EEE232

3   1   0

3

C

MEE 302

Mechanics of Machines II

MEE301

2   1   1

2

C

MEE 318

Fluid Mechanics

MEE206

3   0   1

3

C

MEE 310

Fluid Mechanics Laboratory

MEE206

0   0   3

1

C

MEE 316

Mechanics of Machines Laboratory II

MEE315

0   0   3

1

C

 

TOTAL UNITS

 

17  4  18

21

 

 

LONG VACATION- 8 WEEKS

Course code

Course Title

Pre-requisite/ co-requisite

L   T    P

Units

Status

ABE 300

Students’ Industrial Works Experience Scheme (SIWES) I

 

0    0    30

2

C

 

TOTAL UNITS

AEB200

0    0    30

2

 

HARMATTAN SEMESTER 400 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L  T  P

Units

Status

AEE 405

Agricultural & Rural Programme Extension Planning, Monitoring & Evaluation

-

1   0   0

1

C

ABE 401

Properties &Processing of Agricultural Materials

AEB306

2   0   3

3

C

ABE 403

Hydraulic Engineering

MEE303

1   0   2

2

C

ABE 405

Agricultural Hydrology

MEE303

2   0   2

2

C

ABE 407

Design of Agricultural and Food Processing Machines I

CVE202

2   0   3

3

C

ABE 409

Agricultural Structures Design

MEE303

2   0   3

2

C

ABE 411

Treatment and Disposal of Solid Wastes

-

2   0   3

2

C

ABE 413

Engineering Economics and Valuation

-

2   1   0

2

C

CVE 401

Technical Report Writing

-

2   0   0

2

C

 

TOTAL

 

16  1  16

19

 

 

RAIN SEMESTER AND LONG VACATION 400 LEVEL- 6 MONTHS

Course code

Course Title

Pre-requisite/ co-requisite

L   T    P

Units

Status

ABE 400

Students’ Industrial Works Experience Scheme (SIWES) II

AEB300

0    0   90

6

C

 

TOTAL

 

0    0    90

6

 

 

HARMATTAN SEMESTER 500 LEVEL

Course code

Course Title

Pre-requisite/ co-requisite

L  T   P

Units

Status

ABE 501

Farm Machinery I

-

2   0   2

2

C

ABE 503

Design of Agricultural and Food Processing Machines II

AEB407

2   0   2

2

C

ABE 505

Farm Structures and Environmental Control Engineering

AEB411

2   1   2

2

C

ABE 507

Soil and Water Conservation Engineering

AEB405

2   0   2

2

C

ABE 509

Farm Power I

-

2   0   2

2

C

ABE 521

Soil Traction, Land Clearing and Development

 

2   0   2

2

C

ABE 525

Design and Research Project I

-

1   0   3

2

C

CVE 511

Industrial Economics

-

2   0   0

2

C

CVE 513

Industrial Law and Management

-

2   0   0

2

C

 

         

Any One of the following DEPARTMENTAL ELECTIVES

 

ABE 519

Livestock Housings and Environment

 

2   0   2

2

E

ABE 523

Environmental Pollution

 

2   0   0

2

E

ABE 527

Farm Transportation

 

2   0   2

2

E

 

TOTAL UNITS

 

19  1  17

20

 

 

RAIN SEMESTER 500 LEVEL

OPTION A: CROP PROCESSING AND STORAGE/POST-HARVEST TECHNOLOGY

Course code

Course Title

Pre-requisite/ co-requisite

L   T   P

Units

Status

ABE 502

Farm Machinery II

AEB501

2   0   2

2

C

ABE 504

Processing and Storage of Agricultural Materials

AEB401

2   0   3

2

C

ABE 510

Farm Power II

AEB509

2   1   2

2

C

ABE 512

Heat Transfer and Mass

 

2   1   2

2

C

ABE 518

Mechanical Systems Analysis

MEE306

2   0   2

2

C

ABE 526

Design and Research Project II

AEB525

0   0   12

4

C

ABE 536

Food Engineering: Crop and Food Preservation

AEB405

2   0   3

2

C

ABE 542

Machine Production Design and Technology

AEB503

2   1   2

2

C

Any One of the following DEPARTMENTAL ELECTIVES

 

ABE 520

Automatic Control, Robotics and Mechanics of Deformed Bodies

 

2   1   2

2

E

ABE 522

Automatic Services, Maintenance and Pneumatic Systems

 

2   1   2

2

E

ABE 530

Energy in Agriculture

AEB306

2   1   2

2

E

ABE 540

Agricultural Biotechnology

 

2   1   2

2

E

ABE 544

Solar Energy Applications to Processing and Storage

 

2   1   2

2

E

ABE 548

Advanced Thermodynamics

MEE205,206

2   1   2

2

E

 

TOTAL UNITS

 

14  4  30

20

 

 

RAIN SEMESTER 500 LEVEL

OPTION B: FARM POWER AND MACHINERY

 

Course code

Course Title

Pre-requisite/ co-requisite

L   T   P

Units

Status

ABE 502

Farm Machinery II

ABE 501

2   0   2

2

C

ABE 504

Processing and Storage of Agricultural Materials

ABE 401

2   0   3

2

C

ABE 510

Farm Power II

ABE 509

2   1   2

2

C

ABE 518

Mechanical Systems Analysis

MEE 306

2   0   2

2

C

ABE 520

Automatic Control, Robotics and Mechanics of Deformed Bodies

 

2   1   2

2

C

ABE 526

Design and Research Project II

ABE 525

0   0   12

4

C

ABE 536

Food Engineering: Crop and Food Preservation

ABE 405

2   0   3

2

C

ABE 542

Machine Production Design and Technology

ABE 503

2   1   2

2

C

Any One of the following DEPARTMENTAL ELECTIVES

 

ABE 512

Heat Transfer

 

2   1   2

2

E

ABE 522

Automotive Services, Maintenance and Pneumatic Systems

 

2   1   2

2

E

ABE 530

Energy in Agriculture

ABE 306

2   1   2

2

E

ABE 540

Agricultural Biotechnology

 

2   1   2

2

E

ABE 546

Operations and Management of Farm Power and Machinery Systems

 

2   1   2

2

E

 

TOTAL UNITS

 

14  3  30

20

 

 

 

RAIN SEMESTER 500 LEVEL

 

OPTION C: SOIL AND WATER/FARM STRUCTURES AND BIO-RESOURCES                                 ENGINEERING

 

Course code

Course Title

Pre-requisite/ co-requisite

L   T  P

Units

Status

ABE 506

Design of Environmental Control Structures

AEB505/411

2   0   2

2

C

ABE 508

Agricultural Land Drainage

AEB507

2   0   2

2

C

ABE 514

Irrigation and Water Resources Development

AEB507

2   1  0

2

C

ABE 516

Bio-process Waste and Effluent Management

AEB413

2   1   2

2

C

ABE 524

Design of Irrigation, Hydraulic Control and Soil Conservation Structures

AEB411/505

2   1   2

2

C

ABE 526

Design and Research Project II

AEB525

0   0  12

4

C

ABE 532

Foundation Engineering and Livestock Housing

AEB519

2   1   2

2

C

ABE 534

Rural Infrastructures Engineering

AEE405

2   0   3

2

C

Any One of the following DEPARTMENTAL ELECTIVES

 

ABE 522

Automotive Services, Maintenance and Pneumatic Systems

 

2   1   2

2

E

ABE 528

Advanced Soil Mechanics and Hydraulics

AEB503

2   1   2

2

E

ABE 540

Advanced Agricultural Biotechnology

AEB411

2   0   3

2

E

ABE 550

Rural Water Supply and Sanitation

 

2   1   2

2

E

 

TOTAL UNITS

 

16  4 30

20

 

 

Available Programmes:

B.Eng. Agricultural Engineering

Aims and Objectives of the Programme

The general aims and objectives of Engineering and Technology training should be in consonance with the realisation of national needs and aspirations vis-à-vis industrial development and technological emancipation. For the attainment of the above philosophy, the department will make deliberate efforts to fulfill the underlisted objectives:

  1. to be able to exercise original thought, have good professional judgment and be able to take responsibility for the direction of important tasks and be able to manage people, fund, materials and equipment.
  2. to design engineering projects and supervise their construction, make components, machines, equipment and systems, design and develop new products using new production techniques, to adapt and adopt exogenous technology in order to solve local engineering problems
  • train engineers that are capable of applying engineering principles to soil management; crop production; agricultural mechanization; harvesting, processing, preservation and storage; moisture and water conservation; irrigation; farm structures and livestock welfare and environment and farm and agricultural business management.
  1. train engineers that are capable for economic selection via optimizing, utilizing, operating, maintaining and repairing labour saving machines/equipment that are used in Agriculture to maximize the benefits to be derived from them.
  2. train engineers that are capable of relating their environment and their activities with each other and then develop in themselves the dispositions/responsibilities that is required for professional advantages of the area in Agricultural production, to install and maintain complex engineering systems so that they can perform optimally in our environment.
  3. appraise students based on their limitations and potentials and to make real efforts in provision of relevant compensation/measures.

Admission Requirements:

UTME Entry

In addition to the general entry requirements of the University, an intending candidate for admission into the degree of B.Eng. (Hons) in the department must pass the followings: Mathematics, Physics, Chemistry, Biology/Agricultural Science, English Language at GCE or SSCE at credit level.

Direct Entry

Direct Entry candidates must, in addition to the above, must pass in two of the papers at Advanced Level; or a minimum of Credit in Agricultural Engineering in the HND programme or a minimum of Upper Credit in Agricultural Engineering in the ND programme from recognized Polytechnics; or holds a Diploma in any of Agricultural Sciences from a recognized University.

Duration of the programme

The duration of the programme is five sessions, that is,

-10 semesters for UTME candidates

-8 semesters for Direct Entry candidate ND Agricultural Engineering candidate from Polytechnics /or

-6 semesters for HND Agricultural Engineering candidate from Polytechnics and the likes.

 Admission and graduation policy

Admission: see relevant section of the minimum academic standard document.

State the University’s policy on admission – admission requirement to the programmes, and other factors which influence the selection of students. Also state if there is any policy on advanced placement of students. For example, exemption from certain courses already completed in another University or programme.  

Admission

For admission into any of the first degree programmes of the Osun State University, a candidate shall be required to meet the Faculty and Departmental admission requirements as stipulated in the individual Faculty and Departmental Handbooks. In addition to the Faculty requirements, the candidate should possess the following minimum qualifications:

  • A candidate for admission into the 100 level must have the Senior Secondary School Certificate (SSCE) or its equivalents with credit level passes in five (5) subjects at not more than two sittings. The candidate must also earn an acceptable score in the Joint Admissions and Matriculation Board’s University Tertiary Matriculation Examination (UTME).

(ii)           Candidates seeking admission by direct entry into the 200 level must have two (2) Advanced Level passes or approved equivalents in relevant subjects in addition to the minimum requirements of credit level passes at the SSCE or its equivalents in five subjects are not more than two sittings.

In all admissions into the University, credit level pass in English Language is required. In addition, credit level pass in Mathematics is required for all science- based, Social Sciences and Management Science courses.

Post-UTME Screening

Candidates seeking admission into the University irrespective of their UTME scores are required to pass the University post-UTME screening before being admitted.

Duration of Degree Programmes

The minimum number of years to be spent to be awarded a first degree in a programme of study in non-professional area in the university is four years (or three years minimum for direct entry candidates), and shall not exceed an additional 50% of the duration of the programme if the student fails to graduate within the minimum number of years.

Graduation Requirements

To qualify for the award of a degree of the Osun State University, a student is required to have:

  • Completed and passed the prescribed number of units including all compulsory courses specified by the University.
  • completed and met the standards for all required and optional courses
  • Obtained the prescribed minimum CGPA.

The graduation requirements for the different honours degree programmes are as contained in the individual Departmental Handbooks.

Brief History:

Clement OGUNLADEDr. C. A. Ogunlade

Ag. HOD

Email:  

The Department of Agricultural Engineering of the Osun State University is one of the two engineering departments under the College of Science, Engineering and Technology established in 2019/2020 academic session as part of the third phase of development of the University. Bachelor of Engineering (B.Eng.) degree programme in Agricultural Engineering was approved by the University Senate and Council in the 2018/2019 academic session. The first set of students were admitted into Part I of the programme in December 2019.

The Department runs a 5-year undergraduate programme, operating 2-semester course units in its curriculum to acquaint the students with the basic knowledge, practices and current advances in the field of Agricultural Engineering. Agricultural Engineering is concerned with the planning, design, construction, maintenance and environmental impact of farm and farmstead and those things therein like buildings, roads, waterways, bridges and culverts, dams and their structures, water supply, drainage and irrigation systems/schemes.

The programme in Agricultural Engineering is therefore designed to produce engineers that can meet the challenges in the afore-mentioned areas through service in governmental agencies/establishments, the farm and their settlements. It is designed to train engineers that are capable of applying engineering principles to soil management; crop production;         agricultural mechanization; harvesting, processing, preservation and storage; moisture and water conservation; irrigation; farm structures and livestock welfare and environment and farm and agricultural business management. The two semesters in the calendar of the University, tagged Harmattan and Rain, each has 17-18 weeks duration. The programme leads to the awards of Bachelor of Engineering (B.Eng.) degree in Agricultural Engineering.

The academic programme of the Department operates academic curricular that are tailored along the stipulations contained in the National Universities Commission (NUC) Benchmark Minimum Academic Standards and as required by the Council for the Regulation of Engineering in Nigeria, COREN. The curricula for the programme are being regularly revised. The last revision took place in 2022 to bring the programme contents in line with Benchmark Minimum Academic Standards (BMAS) by the National Universities Commission (NUC) and Council for the Regulation of Engineering in Nigeria (COREN).

Vision:

To be a centre of excellence providing high quality teaching and learning experiences in Agricultural Engineering that will engender the production of entrepreneurial graduates in the discipline, graduates that are capable of impacting on their environment while being globally competitive.

Mission:

The mission of the department is to provide Nigeria and the whole world graduates of Agricultural Engineering that will compete favourably with all others in the whole world in term of leading in the provision of more favourable environment for agricultural production in any part of the world.

 Philosophy:

Toward achieving the national goals and objectives of industrialisation and self-reliance, the Agricultural Engineering education is geared towards:

  1. The development of a thorough practice in Agricultural Engineering training. Education has been conceived as the engine of national development, therefore Agricultural Engineering as a course was thus established on the philosophy of been relevant to education which must continually be responsive to the changing imperatives of the socio-economic and technological development of the nation.
  2. Early broad – based training in general Engineering and Technology
  3. Practical application of Engineering, Technology and Manufacturing Processes to food production in general.
  4. Adequate training in human and organisational behaviour and to raise men and women imbued with the requisite skills, knowledge and competencies to be the arrow heads of the socio-economic and technological development of Nigeria in general and Osun State in particular.
  5. Introduction to entrepreneurial education and training.

The general philosophy therefore is to produce graduates with high academic standard and adequate practical background for self-employment as well as being of immediate value to industry and the community in general.

Aims and Objectives of the Programme

The general aims and objectives of Engineering and Technology training should be in consonance with the realisation of national needs and aspirations vis-à-vis industrial development and technological emancipation. For the attainment of the above philosophy, the department will make deliberate efforts to fulfill the underlisted objectives:

  1. to be able to exercise original thought, have good professional judgment and be able to take responsibility for the direction of important tasks and be able to manage people, fund, materials and equipment.
  2. to design engineering projects and supervise their construction, make components, machines, equipment and systems, design and develop new products using new production techniques, to adapt and adopt exogenous technology in order to solve local engineering problems
  3. train engineers that are capable of applying engineering principles to soil management; crop production; agricultural mechanization; harvesting, processing, preservation and storage; moisture and water conservation; irrigation; farm structures and livestock welfare and environment and farm and agricultural business management.
  4. train engineers that are capable for economic selection via optimizing, utilizing, operating, maintaining and repairing labour saving machines/equipment that are used in Agriculture to maximize the benefits to be derived from them.
  5. train engineers that are capable of relating their environment and their activities with each other and then develop in themselves the dispositions/responsibilities that is required for professional advantages of the area in Agricultural production, to install and maintain complex engineering systems so that they can perform optimally in our
  6. appraise students based on their limitations and potentials and to make real efforts in provision of relevant compensation/measures.

Programme Educational Objectives (PEOs)

The programme has five basic PEOs which are highlighted below:

  1. PEO1 –KNOWLEDGE: access high quality teaching and learning experiences in mathematics, science, engineering fundamentals and an engineering specialization to the solution of developmental and complex engineering problems;
  2. PEO2 –RESEARCH: conduct investigation into developmental or complex problems using research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions;
  3. PEO3 -ENTREPRENEURIAL SKILLS: have entrepreneurial skills that can make them stand on their own as job creators, to provide the engineering industry and profession globally, with readily employable and enterprising graduates prepared for the assumption of technical, managerial and financial responsibilities.
  4. PEO4 -PROFESSIONALISM AND TEAMWORK: execute and manage teamwork, interpersonal skills and professional growth and be able to conduct professional practice considering societal, ethical, and environmental aspects.
  5. PEO5 INVENTION AND CREATIVITY: apply the acquired knowledge and skills in agricultural engineering to develop innovative and sustainable solutions for global competitiveness.

Programme Outcomes (POs)

The programme outcomes are presented below: 

  1. PO1 Engineering knowledge - Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of developmental and complex engineering problems
  2. PO2 Problem Analysis – Identify, formulate, research literature and analyze developmental and complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences.
  3. PO3 Design/Development of Solutions - Proffer solutions for developmental or complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for  public health and safety, cultural, societal and environmental considerations
  4. PO4 Investigation - Conduct investigation into developmental or complex problems using research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions.
  5. PO5 Modern Tools Usage - Create, select and apply appropriate techniques, resources and modern engineering and ICT tools, including prediction, modelling and optimization to developmental and complex engineering activities, with an understanding of the limitations.
  6. PO6 The Engineer and Society - Apply reasoning informed by contextual knowledge including Humanities and Social Sciences to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice
  7. PO7 Environment & Sustainability - Understand the impact of professional engineering solutions in societal and environmental contexts and demonstrate knowledge of and need for sustainable development
  8. PO8 Ethics - Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice, including adherence to the COREN Engineers Code of Conducts.
  9. PO9 Individual & Team Work - Function effectively as an individual, and as a member or leader in diverse teams and in multi-disciplinary settings.
  10. PO10 Communication - Communicate effectively on developmental or complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  11. PO11 Project Management & Finance - Demonstrate knowledge and understanding of engineering, management and financial principles and apply these to one's own work, as a member and leader in a team, to manage projects and in multi-disciplinary environments
  12. PO12 Lifelong Learning - Recognize the need for, and have the preparations and ability to engage in independent and lifelong learning in the broadest  context of technological and social changes

 

Get In Touch

For enquiries on admissions, please contact

  • Address: Room 228, Admission Office, 
    Administrative building, 
    Osun State University,
    Main Campus, Osogbo, Osun State.
  • Tel: 08107976419 (9am - 4pm WAT, Mon - Fri)
  • Email:
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