Description
Course Overview
The subject of Materials for Electronics has been one of the key drivers for the advancement of Science and Technology. This course aims to build the foundation and inspire the interest of freshmen enrolled in the School of Electrical and Electronic Engineering (EEE) after completing the first semester common engineering curriculum. This course will focus on fundamental concepts and basic principles that are related to the Materials for Electronics and the latest progress in this field.
Course Objectives
Student outcomes are statements that describe what students are expected to know and are able to do by the time of graduation, the achievement of which indicates that the student is equipped to achieve the program objectives.
- an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
- an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
- an ability to communicate effectively with a range of audiences
- an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
- an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
- an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
- an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
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 STRUCTURE
100 level Fee Structure
180,000 Naira Tuition fee
10,000 Naira Application fee
20,000 Naira Acceptance fee
20,000 Naira Examination Fee
20,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 250,000 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
20,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 280,000 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
20,000 Naira study kit (t-shirt, course guide, workbook, pen, digital material)
Total 380,000 Naira
CURRICULUM
Section 1: BEE 101 Basic Electrical & Electronics 1
lecture
DC Network
Anyone who’s studied geometry should be familiar with the concept of a theorem: a relatively simple rule used to solve a problem, derived from a more intensive analysis using fundamental rules of mathematics. At least hypothetically, any problem in math can be solved just by using the simple rules of arithmetic (in fact, this is how modern digital computers carry out the most complex mathematical calculations.
lecture
The magnetic field
Magnetic fields are created by electric currents in the space around where the currents flow. Currents which do not change with time (called direct currents or DC) make constant magnetic fields which we call DC fields. A gradual change in a direct current creates a corresponding gradual change in the DC field. By convention we refer to unchanging fields and fields which change in this slow non-periodic manner as DC fields.
lecture
AC machine
AC machines are motors that convert AC electric energy to mechanical energy and also generators that convert mechanical energy to AC electric energy. A set of three-phase AC voltages is induced into the stator armature windings of an ac machine by the rotating magnetic field from the rotor field windings.
Section : 2 Fundamentals of elect elect engr EEE 204
Introduction
Thermodynamics provides macroscopic descriptions of the states of complex systems and of their behaviours when they interact or are constrained under various circumstances. A thermodynamic system is a precisely specified macroscopic region of the Universe. It is limited by boundaries of a particular nature (real or not) with particular properties. All space in the Universe outside the thermodynamic system is known as the surroundings, the environment, or the reservoir. By (European) convention, the scalar quantities exchanged between the system and the surroundings are counted negatively if they leave the system and positively in the opposite case.
Section :3 Analogue Elect Circuit EEE 323
lecture
SIGNALS AND COMMUNICATIONS
Electronic communications is exchanging signals. While these signals are symbolic in many communication schemes, they are almost exact electrical replicas of original information in analog wireless communications. Sound and vision are all such signals. Signals are converted into a form, by a transmitter, so that they can be transmitted in the air as part of electromagnetic spectrum, and are received by a receiver, where they are converted back to the original form. Two communicating parties can be quite far away from each other, and therefore the term telecommunications is used to describe this form of communications. What follows in this chapter is a descriptive theory of analog signal processing in communications.
lecture
CIRCUIT THEORY PRIMER
Electronics is not an abstract subject. Electronics is about designing and constructing instruments to fulfill a particular function, and be helpful to mankind. Electrical energy, voltage and current are all measurable, physical phenomena. Circuits are made up of resistors, capacitors, inductors, semiconductor devices, integrated circuits, energy sources, etc., in electronics.
lecture
AUDIO CIRCUITS
The most natural way of communication for people is to speak to each other. The voice is transmitted and received in electronic communications, to enable people communicate over large distances. The first thing that must be done is to convert voice into an electrical signal, and process it before transmission. The last process in a transceiver, on the other hand, is to recover voice from the received RF signal. The audio circuits of TRC-10 are discussed in this chapter.
Section : 4 Analogue & Digita Computer EEE 471
lecture
Timeline of analog computers
The Antikythera mechanism is believed to be the earliest known mechanical analog computer.[2] It was designed to calculate astronomical positions. It was discovered in 1901 in the Antikythera wreck off the Greek island of Antikythera, between Kythera and Crete, and has been dated to circa 100 BC. Devices of a level of complexity comparable to that of the Antikythera mechanism would not reappear until a thousand years later.
lecture
Electronic analog computers
The similarity between linear mechanical components, such as The similarity between linear mechanical components, such as springs and dashpots (viscous-fluid dampers), and electrical components, such as capacitors, inductors, and resistors is striking in terms of mathematics.
They can be modeled using equations that are of essentially the same form.
lecture
Mechanisms
Electronic analog computers typically have front panels with numerous jacks (single-contact sockets) that permit patch cords (flexible wires with plugs at both ends) to create the interconnections which define the problem setup. In addition, there are precision high-resolution potentio-meters (variable resistors) for setting up (and, when needed, varying) scale factors. In addition, there is likely to be a zero-center analog pointer-type meter for modest-accuracy voltage measurement. Stable, accurate voltage sources provide known magnitudes.
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