Baze University

Biological Sciences

About the course

Baze University is one of Nigeria’s leading universities for bio-science degrees, and home to inspiring academics and pioneering research that is changing our understanding of the world.A Biological Sciences degree will provide you with an opportunity to study the structure and function of cells, which are fundamental to this science. Our programme will give students an exciting opportunity to study biology in its broadest sense.You will also have an opportunity to apply your knowledge to a number of current areas including environmental impact, health issues and food security. You will develop lifelong skills, including the ability to solve problems, evaluate evidence and analyze data.nOur Biological Sciences programme will give you a sound and broad background in biological sciences and increase your understanding of the natural world and the impact of changes introduced into its balanced ecosystem.The optional Professional Training year and the final-year project add to student’s ability to specialize in a range of topics to make their own bespoke degree.

What you will learn

The course aims:
The programme benefits from a strong emphasis on field and laboratory-based practical work and includes modules that focus on the cutting edge aspects of this area of science. You will have the opportunity to become familiar with state of the artmethodologies and their applications, and will graduate as a versatile and knowledgeable biological scientist with the numerical, analytical and communication skills necessary to meet the changing needs within many key industries.

Graduate destinations

Clinical Project Administrator
Biomedical Scientist
Biochemist
Quality Control Scientist
Microbiology Researcher

Course Details

Course Structure
Year 1 | Semester 1
Code: GEN103
Lecturer: Mercy Johnson
Unit: 3
Prerequisite: No Prerequisite
Overview:

This module will introduce students to basic mathematical topics useful in their different courses of study.

Aims:

To introduce students to basic mathematical topics useful in their different courses of study at Baze University. Apart from learning the basic statistical tools useful for data collection, they will also gain valuable insight into number system, the concept of sets, laws of indices, solving equations and a wide range of other basic mathematical techniques. In essence, this module is designed to equip students with useful methods of solving and approaching mathematical problems.

Syllabus:

Introduction to Number System, Laws of Indices, General Inequality, Equation Systems, Algebra, Sequences and Series, Trigonometry as well as general overview of Statistics.

Teaching and learning methods:
  • Lectures: Lectures will be used to introduce and explain major ideas and theories and to illustrate their wide-ranging applications. 
  • Interactive lectures will review materials by encouraging their active participation - inviting questions, working through examples, giving short quizzes, discussing case studies, or showing a  video followed by a quiz, etc.
  • Classes: This will encourage students to begin to apply the knowledge gained to real and hypothetical cases and will encourage them also to gain confidence in presenting and defending their own ideas. Classes will usually require them to read some material(s) for discussion, or prepare answers, give some presentations, research a topic, take part in a debate, etc. 
  • Homework: Homework will be assigned regularly. Regular assignments will help them understand the material and they will get feedback.

Intended learning outcomes:

On the  successful completion of this module, students are expected to have developed their skills and have:

  • Ability to read and understand fundamental mathematics.
  • Ability to apply range of concepts in Mathematics or represent and solve problems in Mathematics.
  • Ability to represent and analyse data using the right techniques.


Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  • Basic College Mathematics by Elayn Matin-Gay, New Jersey, Pearson Prentice Hall.
  • College Mathematics for Business, Economics, Life Sciences & Social Sciences (11th Edition) by Raymond A. Bernet, Michael R, Ziegler, & Karl E. Byleen. New Jersey, Pearson Prence Hall.
  • Algebra & Trigonometry (Sixth Edition) by Michael Sullivan. Prentice Hall, Upper Saddle River, New Jersey 07458.
  • Any other mathematical textbook that covers any of the topics.

Code: BIO101
Lecturer: Alonge Olatunbosun Olawoye
Unit: 3
Prerequisite: No Prerequisite
Overview:

This module is designed to cover the major aspects of biology as a life science. This includes fields of biology such as: botany, zoology, physiology, ecology, microbiology, etc.

Aims:

To equip students with the basic principles of general biology as they relate to the cellular, organismic & population levels of organization. As well as, cell structure & function, reproduction, genetics, evolution, diversity of organisms & ecology.

Syllabus:
  • Introduction: The Science of Biology
  • Characteristics of Living Things
  • Classification of Organisms
  • Basic Biological Chemistry
  • Cell Structure and Organization
  • Functions of Cellular Organelles
  • Diversity of Living Organisms
  • Animal Maintenance: Human circulatory system
  • Lymphatic System
  • Immune System
  • Musculoskeletal System
  • Nervous System


Teaching and learning methods:

This course will be delivered through lectures in the classroom, using electronic and print media, amongst other educational materials to help facilitate the learning process. Lectures will involve interactive sessions as well as individual and student group exercises and presentations, to aid the development of necessary analytical, practical, and problem-solving skills of the students.

Intended learning outcomes:

On successful completion of this module, students should have attained a concise knowledge of the basic principles of biology, and developed necessary analytical, problem-solving, and research skills relevant in the ever dynamic field of biology.

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  1. Prentice-Hall. Biology: the study of life (6th edition), 1995.
  2. Roberts M.B.V. Biology: a functional approach (4th edition), 1986.


Code: CHM101
Lecturer: Abubakar Alkali
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: PHY107
Lecturer: Babangida Babaji Abdullahi
Unit: 1
Prerequisite: No Prerequisite
Overview:

General Physics 1 practical is the laboratory section that cover all the topics taught in General Physics 1 (PHY101).

Aims:

The aim of this module is to assist students with the practical of all the topics (mechanics, heat and optics)

Syllabus:

The experiments include: Mechanics: timing experiments, simple pendulum, compound pendulum, measurement of g, moments, determination of moment of inertia, measurement of viscosity, use of force board, law of momentum. Optics: reflection using plane mirror, convex/concave mirror, concave/convex lens, refraction using a prism, critical angle, apparent depth/real depth, simple microscope, compound microscope.Heat: measurement of specific heat capacity of water and a solid, expansion of gas experiment using a long capillary tube, Joule’s law.

Teaching and learning methods:

This module is a purely experimental. Each experiment will be accompanied with laboratory manual. Students will be taken through the lab sections by Technologists and the module instructors. The students will then submit their laboratory reports for assessment.

Intended learning outcomes:

At the end of the module, students will be equipped with report writing skill. They will also understand the practical of what have been discussed in PHY101 class.Fundamentals of Physics by David Halliday, Robert Resnick and Jearl Walker, Vol. 1 8th Ed. Wiley (2007)
University Physics by Young Freedman, vol. 1 13th Ed. Addison-Wesley

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  • Fundamentals of Physics by David Halliday, Robert Resnick and Jearl Walker, Vol. 1 8th Ed. Wiley (2007)
  • University Physics by Young Freedman, vol. 1 13th Ed. Addison-Wesley

Code: COM112
Lecturer: Amit Mishra
Unit: 3
Prerequisite: No Prerequisite
Overview: NIL
Aims: NIL
Syllabus: NIL
Teaching and learning methods: NIL
Intended learning outcomes: NIL
Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list: NIL
Code: GEN107
Lecturer: James Daniel
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: PHY101
Lecturer: Hamman Gabdo
Unit: 3
Prerequisite: No Prerequisite
Overview: General overview of the module, module description and students - instructor introduction.
Aims: To aid students to understand the broad-based fundamental principles of the physical world. This module will on the practical applications of everyday experience and industrial processes. 
Syllabus:
  • Measurement in physical world
  • One dimensional kinematics - distance, displacement, speed, velocity, acceleration, uniform, motion, free fall.
  • Vector and scalar - vector addition, subtraction, division, multiplication and applications.
  • Problem solving section.
  • Two-dimensional kinematics - position, displacement, velocity, acceleration and projectile.
  • Fundamental laws of Mechanics.
  • Problem solving and mid-term exam
  • Work, energy and power.
  • Temperature and heat.
  • Introduction to thermodynamics.
  • Hydrostatics.
  • Problem solving.
  • Elasticity.
  • Problem solving
Teaching and learning methods: Lectures: This will be used to introduce the module and explain major concepts of the fundamentals to students. The theories (equations) and their applications will be illustrated in this section.

Interactive Lectures: This section of the teaching will allow active student - instructor interactions. The instructor and students ask more questions and solve more examples.

Classes/Tutorials: Tutorial sections will encourage you (students) to begin to gain confidence in solving difficult problems. The students are required to prepare any difficult problems they are unable to solve on their own for discussion.

Class-work/Homework: Class-work and Homework will be assigned regularly. Students' answers to class-work and homework should be clear, concise and correct. Students will receive feedback on the homework and class-work.
Intended learning outcomes: Students are expected to develop the necessary skills required to solve fundamental problems in physics. This will enable them prepare for further studies in respective field.
Assessment:
Exams: 60%
Test: 25%
Quiz: 5%
Coursework: 10%
Recommended reading list:
  • Fundamentals of Physics by David Halliday, Robert Resnick and Jearl Walker, Vol. 1 (8th Ed.) Wiley (2007)
  • University Physics by Young Freedman, vol 1 (13th Ed.) Addison - Wesley
Code: GEN101
Lecturer: Andrew Bula
Unit: 3
Prerequisite: No Prerequisite
Overview:

NIL

Aims:

NIL

Syllabus:

NIL

Teaching and learning methods:

NIL

Intended learning outcomes:

NIL

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:

NIL

Year 1 | Semester 2
Code: BIO102
Lecturer: Olushola Tituoye
Unit: 3
Prerequisite: No Prerequisite
Overview:

This module is designed to cover the major aspects of biology as a life science. This includes fields of biology such as: botany, zoology, physiology, ecology, microbiology, etc.

Aims:

To equip students with the basic principles of general biology as they relate to the cellular, organismic & population levels of organization. As well as, cell structure & function, reproduction, genetics, evolution, diversity of organisms & ecology.

Syllabus:
  • Human Nervous System
  • Chemical Regulation (Endocrine System)
  • Plant Maintenance: Plant Nutrition
  • Plant Structure
  • Plant Transport
  • Regulation of Plant Growth
  • General Reproduction
  • Heredity
  • Evolution
  • Interrelationship of Living Organisms
  • Elements of Ecology and types of Habitat
  • Human Ecology


Teaching and learning methods:

This course will be delivered through lectures in the classroom, using electronic and print media, amongst other educational materials to help facilitate the learning process. Lectures will involve interactive sessions as well as individual and student group exercises and presentations, to aid the development of necessary analytical, practical, and problem-solving skills of the students.

Intended learning outcomes:

On successful completion of this module, students should have attained a concise knowledge of the basic principles of biology, and developed necessary analytical, problem-solving, and research skills relevant in the ever dynamic field of biology.

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  1. Prentice-Hall. Biology: the study of life (6th edition), 1995.
  2. Roberts M.B.V. Biology: a functional approach (4th edition), 1986.


Code: CHM102
Lecturer: Abubakar Alkali
Unit: 3
Prerequisite: No Prerequisite
Overview: NIL
Aims: NIL
Syllabus: NIL
Teaching and learning methods: NIL
Intended learning outcomes: NIL
Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list: NIL
Code: PHY108
Lecturer: Babangida Babaji Abdullahi
Unit: 1
Prerequisite: No Prerequisite
Overview:

General Physics 2 practical is the laboratory section that cover all the topics taught in General Physics 2 (PHY102).

Aims:

The aim of this module is to assist students with the practical of all the topics (Electricity, magnetism, vibration and waves)

Syllabus:

Electricity: Ohm’s law, heating effect of a current, internal resistance of a cell, meter/Wheatstone Bridge, potentiometer measurement of ece, plotting of magnetic field. Sound: resonance tube, sonometer.

Teaching and learning methods:

This module is a purely experimental. Each experiment will be accompanied with laboratory manual. Students will be taken through the lab sections by Technologists and the module instructors. The students will then submit their laboratory reports for assessment.

Intended learning outcomes:

At the end of the module, students will be equipped with report writing skill. They will also understand the practical of what have been discussed in PHY101 class.

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  • Fundamentals of Physics by David Halliday, Robert Resnick and Jearl Walker, Vol. 1 8th Ed. Wiley (2007)
  • University Physics by Young Freedman, vol. 1 13th Ed. Addison-Wesley

Code: GEN108
Lecturer: Mercy Johnson
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: PHY102
Lecturer: Joseph Asare
Unit: 3
Prerequisite: Physics 1 ,
Overview:

The subject of electromagnetism is a combination of electrostatics phenomena, magnetism, and current electricity. These must have seemed at one time to be entirely different phenomena until in 1829 when Oersted discovered that an electric current is surrounded by a magnetic field. The basic phenomena and the connections between these three disciplines were ultimately described by Maxwell towards the end of the nineteenth century in four famous equations called the Maxwell's Equations. The course acquaints the student with concepts of electric and magnetic fields associated with particles and how these are affected in the presence of other particles.

Aims:

The aim of this module is to aid students in understanding the broad-based fundamental principles of electricity and magnetism by emphasizing on applications associated to industrial processes and everyday experiences.

Syllabus:

Electrostatics.

Conductors and Currents.

Magnetism.

Maxwell's Equations.

Electromagnetic Waves and Oscillations.

Teaching and learning methods:

  • Lectures: This will be used to introduce the module and explain major concept of the fundamentals to students.
  • Interactive Lectures: This section of the teaching will allow active student-instructor interactions.
  • Classes/Tutorials: Tutorial sections will build confidence in students and encourage participation in problem solving.
  • Class-work/Homework: Class-work and Homework will be assigned regularly. Students will received feedback on the homework and class-work for improvement.

Intended learning outcomes:

The theories and their applications illustrated in this module should expose students to the required foundational knowledge in Electromagnetism required for higher education in the department. 

Assessment:
Exams: 60%
Test: 20%
Quiz: 5%
Coursework: 15%
Recommended reading list:

  1. Young, H. D., & Freedman, R. A. (2015). University Physics with Modern Physics and Mastering Physics. Academic Imports Sweden AB.
  2. Serway, R. A., Beichner, R. J., & Jewett, J. W. (2000). Physics for scientists and engineers with modern physics.
  3. Paul E. Tippens. (2007). Electricity and Magnetism Lecture Notes. Southern Polytechnic State University.
  4. Lisa Jardine-Wright. (2008). Introduction to Electricity and Magnetism. Cavendish Labrotory.

Code: GEN104
Lecturer: Omojuyigbe Abosede
Unit: 3
Prerequisite: Use of English 1 ,
Overview:

In this module, students will learn to write well structured essays, overcome speech anxiety, work effectively in groups , the art of public speaking and give well structured presentations

Aims:

The aim of the module is to teach students the rudiments of public speaking, team work  and  presentations.

Syllabus:

Reading comprehension, Literary appreciation, Writing skills, Presentation skills, Working in groups for a presentation, Preparing for assessed presentation.

Teaching and learning methods:
  • Lectures will be given through power point presentations to explain the topics contained in the syllabus.
  • Class discussions will also be used to enhance individual participation, self confidence and team work as the students will be required to give presentations fortnightly


Intended learning outcomes:

Students who have taken this module should be able to:

  • Read effectively
  • Write well structured essays
  • Work effectively in a group or team
  • Carry out researches independently
  • Give good presentations


Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:
  • Turner, Kathy et al., Essential Academic Skills,[ Oxford University Press,  Oxford ,2011]
  • Kathleen T. McWhorter,  Academic Reading,  [ HarperCollins College Publishers, 1994]
  • Seely, John, Oxford Guide to Effective Reading and Speaking, [ Oxford University Press, Oxford, 2005]

Year 2 | Semester 1
Code: BIO207
Lecturer: Oiza Zainab Adeiza
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: BIO205
Lecturer: Khadija Hanga
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: GEN201
Lecturer: Shulammite Paul
Unit: 15
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: BIO203
Lecturer: Bandenawaz Rajesaheb Ramadurga
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: BIO201
Lecturer: Khadija Hanga
Unit: 3
Prerequisite: No Prerequisite
Overview: NIL
Aims: NIL
Syllabus: NIL
Teaching and learning methods: NIL
Intended learning outcomes: NIL
Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list: NIL
Code: CHM201
Lecturer: Okafor Greatman
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Year 2 | Semester 2
Code: BIO204
Lecturer: Matouke M Moise
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: BIO202
Lecturer: Olayanju Segun
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: MCB202
Lecturer: Alonge Olatunbosun Olawoye
Unit: 3
Prerequisite: No Prerequisite
Overview:

Completing this course will equip students with the basic knowledge and skills that will serve them well, long after graduation. To achieve this goal the main learning objectives of this course is designed to enable students:
(a) Get acquainted to the full range of microbial life and the techniques for studying microorganisms.
(b) Recognize the important role of microorganisms in the environment & industry.
(c) Explore and examine pathogenic microorganisms, their interaction with the body and their immune system responses.

Aims:

This course: Microorganisms, Infections and Immunity aims to introduce students to the diversity and activities of microorganisms and the techniques used to study them. The course also describes the role of microbes in causing diseases, as well as a comprehensive review of immunology and the proper functioning of the immune system in fighting infection.

Syllabus:
  • Introduction to Microorganisms, Infections, & Immunity
  • Biology of Microorganisms
  • Microbial Diversity
  • Microbial Genetics
  • Medical Microbiology
  • Environmental Microbiology
  • The Immune System


Teaching and learning methods:

This module will be delivered through lectures in the classroom, using electronic & print media, amongst other educational materials to help facilitate the learning process. Lectures will involve interactive sessions as well as individual & student group exercises & presentations, to boost the development of necessary analytical, practical & problem-solving skills of the students.

Intended learning outcomes:

On successful completion of this module, students should be able to:
a) Distinguish between prokaryotic and eukaryotic cells;
b) Understand the physiological requirements for microbial growth & cultivation;
c) Understand the essential role of microbes in the environment & food industry; & harnessing their benefits.
d) Understand the role of pathogens in infections and diseases; and measures for disease prevention and control;
e) Understand the mechanism of the human immune system.

Assessment:
Exams: 60%
Test: 15%
Quiz: 10%
Coursework: 15%
Recommended reading list:

Madigan, Martinko, et al., Brock Biology of Microorganisms. (12th edition), 2009.
Willey, Sherwood, Woolverton. Prescott, Harley, and Klein’s Microbiology (7th edition), 2008.

Year 3 | Semester 1
Code: GEN202
Lecturer: Olalekan Sakariyau
Unit: 3
Prerequisite: Entrepreneurship Studies I ,
Overview:

Entrepreneurship II expands on the foundation to this subject which was laid during the module Entrepreneurship I. We examine in detail the entrepreneurial process and Steps in the process of assessing the viability of a new venture which will be illustrated and students will be expected to conduct such a study.

Aims:

The aim of this module is the creation of New Ventures, that is, the ways and means they come into being and the key factors associated with either their success or failure.

Syllabus:

Decision to become an entrepreneur, Developing successful business ideas, Moving from an Idea to an Entrepreneurial firm, Managing and growing an Entrepreneurial firm.

Teaching and learning methods:

The module employs lectures, videos, case discussions and analyses, student field work & presentations and general discussions to engage the student in the material.  Student involvement in class activities play a significant role in the learning process. 

Intended learning outcomes:

At the end of the module student should be able to:

  • Understand the nature of the entrepreneurial process and ways to manage the process
  • Understand the difference between an opportunity and an idea, how to recognize it and how to evaluate it.
  • Describe the purpose of a feasibility analysis and develop a business model
  • Appreciate ethical issues that are intertwined with entrepreneurial activities and develop a framework for managing ethical dilemmas. 
  • Evaluate the nature of creative new business concepts that can be turned into sustainable business ventures.
Assessment:
Exams: 70%
Test: 15%
Quiz: %
Coursework: 15%
Recommended reading list:

Bruce R. Barringer and Duane Ireland. Entrepreneurship- Successfully Launching New Ventures, 5th Ed., Pearson

Code: BIO303
Lecturer: Fatima Mukhtar Mairami
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: BIO305
Lecturer: Samira A. Abdullahi
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Year 3 | Semester 2
Code: GEN301
Lecturer: Obianuju Chidiebele Aliche
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: GEN202
Lecturer: Olalekan Sakariyau
Unit: 3
Prerequisite: Entrepreneurship Studies I ,
Overview:

Entrepreneurship II expands on the foundation to this subject which was laid during the module Entrepreneurship I. We examine in detail the entrepreneurial process and Steps in the process of assessing the viability of a new venture which will be illustrated and students will be expected to conduct such a study.

Aims:

The aim of this module is the creation of New Ventures, that is, the ways and means they come into being and the key factors associated with either their success or failure.

Syllabus:

Decision to become an entrepreneur, Developing successful business ideas, Moving from an Idea to an Entrepreneurial firm, Managing and growing an Entrepreneurial firm.

Teaching and learning methods:

The module employs lectures, videos, case discussions and analyses, student field work & presentations and general discussions to engage the student in the material.  Student involvement in class activities play a significant role in the learning process. 

Intended learning outcomes:

At the end of the module student should be able to:

  • Understand the nature of the entrepreneurial process and ways to manage the process
  • Understand the difference between an opportunity and an idea, how to recognize it and how to evaluate it.
  • Describe the purpose of a feasibility analysis and develop a business model
  • Appreciate ethical issues that are intertwined with entrepreneurial activities and develop a framework for managing ethical dilemmas. 
  • Evaluate the nature of creative new business concepts that can be turned into sustainable business ventures.
Assessment:
Exams: 70%
Test: 15%
Quiz: %
Coursework: 15%
Recommended reading list:

Bruce R. Barringer and Duane Ireland. Entrepreneurship- Successfully Launching New Ventures, 5th Ed., Pearson

Code: BIO307
Lecturer: Bandenawaz Rajesaheb Ramadurga
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Code: GEN300
Lecturer: No Name
Unit: 0
Prerequisite: No Prerequisite
Overview:
Aims:
Syllabus:
Teaching and learning methods:
Intended learning outcomes:
Assessment:
Exams: %
Test: %
Quiz: %
Coursework: %
Recommended reading list:
Year 4 | Semester 1
Year 4 | Semester 2

Entry requirements

Home / UTME


SSCE (WAEC, NECO, etc);
JAMB;

Home / Direct Entry


A level / Diploma / IJMB / HND / First degree;
JAMB DE Form;
SSCE (WAEC, NECO, etc);

Home / Direct Transfer


SSCE (WAEC, NECO, etc);
Academic transcript;
Please note: Admission on transfer will only be issued after on campus interview;

Foundation


SSCE (WAEC, NECO, etc);

International (Nigerian)


O' level result;
JAMB;
Please note: You can get a conditional admission if you does not have JAMB, but you must provide it before you progress to 200 level;

International (Foreign)


O' level result;

Staff

S/N Staff Name Rank
1 ALONGE OLATUNBOSUN OLAWOYE Lecturer I
2 DR. JEMILAT ALIYU IBRAHIM Senior Lecturer
3 FATIMA MUKHTAR MAIRAMI Lecturer I
4 GABREAL H. ASENGE Professor
5 HELEN NEGBENEBOR Senior Lecturer
6 IBRAHIM MANI AHMAD Senior Lecturer
7 ILIYA SHEHU NDAMS Professor
8 OIZA ZAINAB ADEIZA Lecturer II
9 OLAYANJU SEGUN Lecturer II
10 TOLULOPE FAMAKINWA Lecturer II