Description
Course Overview
This program has been reviewed with the intention of making the program competitive while maintaining the high standard of the program. With the Courses offered, the graduates will become highly competitive in the job market and at the same time prepare them in becoming independent in making choices of career and self employment. Students are trained not only in the technical areas of specialization but also in personal development, communication skills and entrepreneurship.
Course Objectives
The primary aim of the Computer Science Department is to provide a sound training leading to a B.Sc. degree in computer science. It is also the aim of the department to provide general computer science Courses required in other disciplines. It is intended that upon completion of the programme the graduate should:
- be able to identify and apply software engineering and hardware engineering tools effectively;
- have acquired adequate skills to be able to design and implement suitable computer applications, both software and hardware, and advice on such applications;
- be fully equipped to take on postgraduate studies in computer science; and
- have attained a level of academic competence in computer science to be able to function as a productive member of his/her profession.
Admission Requirements
Any applicant who meets the minimum entry requirements for admission into the University may be granted admission, the requirements are :
- O’level Result
- Birth Certificate
- Passport Photograph
REGISTRATION PROCESS
To register for any of the available courses take the following steps
- Click on courses on the menu bar or apply now button to pick a course
- After selecting the course, click apply now to add to cart
- View the cart to fill the application form
- Submit the form to go to the payment page
- Complete the payment form and select method of payment and submit.
- You will receive an email letting you know of your registration and your application status
- You will be contacted by one of our admission team member to guide you on the admission.
- After making the payment of application fee admission letter will be sent to your email with fee structure.
- You will need to make payment of at least 70% of the tuition and acceptance fee for you to be granted access to the course applied for.
- After making the payment an email will be sent to your email with access link to your registered course.
- You study online and can come to school every semester for exams.
FEE STRUTURE
100 level Fee Structure
180,000 Naira Tuition fee
10,000 Naira Application fee
20,000 Naira Acceptance fee
20,000 Naira Examination Fee
30,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 260,000 naira
200 level Transfer Fee structure
180,000 Naira tuition fee
10,000 Naira application fee
20,000 Naira acceptance fee
30,000 Naira transfer fee
20,000 Naira Examination Fee
30,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 290,000 Naira
Transfer final year 300 level Fee structure
180,000 Naira tuition fee
10,000 Naira application fee
20,000 Naira acceptance fee
20,000 Naira Examination Fee
30,000 Naira transfer fee
20,000 Naira Project supervision fee
60,000 Naira Certificate fee
20,000 Naira convocation fee
30,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 390,000 Naira
CURRICULUM
COMPUTERS IN SOCIETY
WHAT IS COMPUTER
INTRODUCTION
No previous computer experience is required to complete this introductory course.
What is a Computer?
What is a Computer? Throughout history there have been many forms of computers used by man. However, the modern computer is basically an electronic device which can respond to commands.
A modern computer is designed to receive either a set of instructions from the operator or a program, and then carry out the required tasks by performing calculations on numerical data or by compiling and correlating other forms of information.
Without the development of the computer, our modern world of high technology would not have developed. Computers affect us all and are used in many of today’s industries, some of which are:
• Banking transactions (Autobanks) • Household accounts (Budgets) • Automated manufacturing (Producing a modern car) • Communications (Telephone systems) • Shopping (Buying over the Internet) In the modern computer world, there are two main types of computers in use, namely analog and digital. This course concentrates on the digital computer, which basically solves problems by performing sums and by dealing with each number digit by digit. 3.1.2 The Digital Computer A digital computer bases its whole operation on the ability to determine if a switch (sometimes called a gate), is either open or closed. As this type of computer can only recognized two states, its microcircuits are either on or off, while in the case of letters and numbers only O’s and 1’s are used (e.g. the letter “a” would be represented to the PC as something similar to “00110101). It would appear from the above that the digital computer performs a relatively simple task, So what makes it so special? There are 2 things that makes a computer special, the first is the speed at which a computer performs this simple task and the second is the amount (volume) of data the computer handles at any one time.
OPERATING SYSTEM
INTRODUCTION The Operating System provides facilities that enable other programs to use the hardware in a safe and controlled way.
What Is An Operating System?
An operating system is a software responsible for controlling the allocation and usage of hardware and software resources. The operating system is the basis on which all computer application programs run.
WORD PROCESSING CONTINUED
INTRODUCTION Text files can be created and modified with the aid of a special program called an editor. Many documents not requiring anything but a very basic page layout are prepared this way.
GENERAL PHYSICS PRACTICAL
GRAPHS
https://www.youtube.com/watch?v=gXgEDyodOJU
INTRODUCTION
As a physics student, you will be involved in observing some physical phenomena and measuring physical quantities such as length, mass, time, temperature and current of electricity. These are called fundamental physical quantities. You should also note that such fundamental quantities are used to obtain derived quantities such as force, velocity, pressure, density etc.
Through such measurements we are able to learn more about nature. We are able to measure some constants about nature for example acceleration due to gravity, the resistance of a wire, and specific heat capacity of a substance. We determine these constants by identifying how two variables are related through the use of graphs. Thus in your practical sessions in the laboratory, you will be developing practical skills in measuring physical quantities and the
show the relationship between the two physical quantities to be measured through the use of graphs.
In this unit therefore, you will be introduced to the various types of graphs and how to use such graphs to obtain the physical constants required.
MEASUREMENTS
https://www.youtube.com/watch?v=gXgEDyodOJU
INTRODUCTION
As a physics student, you will be involved in observing some physical phenomena and measuring physical quantities such as length, mass, time, temperature and current of electricity. These are called fundamental physical quantities. You should also note that such fundamental quantities are used to obtain derived quantities such as force, velocity, pressure, density etc.
Through such measurements we are able to learn more about nature. We are able to measure some constants about nature for example acceleration due to gravity, the resistance of a wire, and specific heat capacity of a substance. We determine these constants by identifying how two variables are related through the use of graphs. Thus in your practical sessions in the laboratory, you will be developing practical skills in measuring physical quantities and the
show the relationship between the two physical quantities to be measured through the use of graphs.
In this unit therefore, you will be introduced to the various types of graphs and how to use such graphs to obtain the physical constants required.
ERROR ANALYSIS
INTRODUCTION In the last unit we studied about errors in measurements due to imprecision of measuring devices. The results of measurements were expressed as approximate numbers. We also learn about performing basic operations of addition, subtraction, multiplication and division of approximate numbers and expressing results using correct number of significant digits. We assumed that the measuring instruments as well as the observers were perfect. However, as you are aware, there can be defects in measuring instruments and also humans are not perfect. If the environment is not perfectly controlled its changes will affect the object to be measured thereby introducing errors in measurements. In this unit we will familiarise ourselves with these and other sources of errors. We will also learn how to estimate and possibly eliminate or account for such errors. In most of the physics experiments our objective is to determine relationship between physical quantities. Therefore, we will estimate the errors in the measurement of various physical quantities and make efforts to determine valid relationships as mentioned above. In the next couple of experimental write-ups we will apply our knowledge of errors and its propagation to actual measurements and deduce relationships. We will first concentrate on the measurements of fundamental quantities such as mass, length and time, and then do experiments involving two or more of these quantities.
