FE Electrical and Computer Exam Preparation Course
150+ Ondemand lectures, 70+ quizzes, 10+ miniexams
Covers all exam sections as per the latest NCEES® exam specification
Solved examples, quizzes and miniexams with detailed solutions
Teaches efficient problem solving techniques required for FE exam
Oneof a kind explanations
Complicated concepts are explained in easytounderstand manner
Detailed solutions provided for all practice problems
Relevant examples included to facilitate learning
Progress tracking
Automatically updates your course completion progress
Helps in identifying weak areas and address the gaps
24/7 email access to the instructor – Wasim Asghar, P.E., P.Eng, M.Eng
More about the Course….
Are you a recent Electrical and Computer Engineering graduate or a seasoned professional preparing for FE Exam?
Are you finding it difficult to study for the latest FE Electrical and Computer exam?
Are you looking for a structured and well planned learning resources?
If you answered yes to any one of the questions above, then this course is for you! This course all sections of the latest NCEES FE Computerbased Testing specification and it will allow you the flexibility to learn anytime, from anywhere, and at your own pace by learning from 150+ lectures and quizzes. The theoretical explanations, example solutions and quizzes will streamline your efforts towards the goal.
This course offers you ondemand preparation for FE Electrical and Computer Engineering exam. It will allow you to gain competency of necessary knowledge areas and develop proficiency in solving multitude of problems.
1 – Overview, facts and tips related to each exam section
Each section starts with a high level overview which goes over the key knowledge areas, NCEES FE Reference Handbook page numbers, facts and preparation tips that will provide you a bird’s eye view.
2 – Theoretical concepts
It is not easy to remember all the theoretical details from last term college course let alone recalling those details if the course was taken years ago. That is why every this course is strategically divided into lectures that will fast track your review of theoretical concepts that might be rusty. Simple concepts are presented as such and more complicated ones are explained by going in necessary details.
3 – How to solve FEstyle problems
At the end of the day it all comes down to this : “Are you able to get the correct answer ?”
It may sound correct but there are few other factors that are of prime importance. One of the most important factor is time management during FE exam. You will not have infinite time to get to the correct answer due to which you are not only required to get the correct answer but also get the correct answer in correct amount of time.
The sample problems solved in the lectures along with the ones presented in Study Guide (preparation book that complements the lectures) will try to present efficient ways of solving the problems.
4 – Quizzes
It is not sufficient to go through the lectures and examples without testing yourself (sometimes of details that are not offered in the lecture). This will allow you to push yourself a bit and help gain better conceptual understanding.
5 – Preparation framework
If you have taken other standardized tests such as SAT, GRE, GMAT etc. you can attest to the fact that acing or simply passing any such exam require strict adherence to a schedule and preparation framework. This course will assist you in developing a preparation framework by offering you a package of theory, solved examples, quizzes and references for practice problems.
COURSE CONTENT
Mathematics
 Algebra and trigonometry
 Complex numbers
 Discrete mathematics
 Analytic geometry
 Calculus
 Ordinary differential equations
 Linear algebra
 Vector analysis
Probability and Statistics
 Measures of central tendencies and dispersions
 Probability distributions
 Expected value (weighted average)
Ethics and Professional Practice
 Codes of ethics
 Intellectual property
 Safety
Engineering Economics
 Time value of money
 Cost estimation
 Risk identification
 Analysis (e.g., costbenefit, tradeoff, breakeven)
Properties of Electrical Materials
 Semiconductor materials
 Electrical (e.g., conductivity, resistivity, permittivity, magnetic permeability)
 Thermal (e.g., conductivity, expansion)
Circuit Analysis (DC and AC Steady State)
 KCL, KVL
 Series/parallel equivalent circuits
 Thevenin and Norton theorems
 Node and loop analysis
 Waveform analysis (e.g., RMS, average, frequency, phase, wavelength)
 Phasors
 Impedance
Linear Systems
 Frequency/transient response
 Resonance
 Laplace transforms
 Transfer functions
Signal Processing
 Sampling (e.g., aliasing, Nyquist theorem)
 Analog filters
 Digital filters (e.g., difference equations, Ztransforms)
Electronics
 Models, biasing, and performance of discrete devices
 Amplifiers (e.g., singlestage/common emitter, differential, biasing)
 Operational amplifiers (e.g., ideal, nonideal)
 Instrumentation (e.g., measurements, data acquisition, transducers)
 Power electronics (e.g., rectifiers, inverters, converters)
Power Systems

Power theory (e.g., power factor, single and three phase, voltage regulation)
 Transmission and distribution
 Transformers
 Motors and generators (e.g., synchronous, induction, dc)
Electromagnetics
 Electrostatics/magnetostatics (e.g., spatial relationships, vector analysis)
 Electrodynamics (e.g., Maxwell equations, wave propagation)
 Transmission lines (high frequency)
Control Systems
 Block diagrams (e.g. feedforward, feedback)
 Bode plots
 Closedloop response, openloop response, and stability
 Controller performance (e.g., steadystate errors, settling time, overshoot)
Communications
 Basic modulation/demodulation concepts (e.g., AM, FM, PCM)
 Fourier transforms/Fourier series
 Multiplexing (e.g., time division, frequency division, code division)
 Digital communications
Computer Networks
 Routing and switching
 Network topologies (e.g., mesh, ring, star)
 Network types (e.g., LAN, WAN, internet)
 Network models (e.g., OSI, TCP/IP)
 Network intrusion detection and prevention
 Network Security
Digital Systems
 Number systems
 Boolean logic
 Logic gates and circuits
 Logic minimization (e.g., SOP, POS, Karnaugh maps)
 Flipflops and counters
 Programmable logic devices and gate arrays
 State machine design
 Timing
Computer Systems
 Microprocessors
 Memory technology and systems
 Interfacing
Software Engineering
 Algorithms (e.g., sorting, searching, complexity, bigO)
 Data structures (e.g., lists, trees, vectors, structures, arrays)
 Software implementation (e.g., iteration, conditionals, recursion)
FREQUENTLY ASKED QUESTIONS
When does the course start and finish?
The course starts now and ends whenever you want! It is a completely selfpaced online course – you decide when you start and when you finish.
How is this course different from your book?
Study Guide for FE Electrical and Computer Engineering CBT Exam is an excellent ‘problembased learning’ resource. This course however dives into the nuts and bolts of Electrical and Computer Engineering examination by explaining necessary theoretical concepts, examples and quizzes. In fact, it is designed such that you will actually be able to maximize your learning experience if you are already using my book for exam preparation!
Will watching the videos and solving quizzes be sufficient enough to prepare for the examination?
These videos and quizzes are specially developed to expedite your preparation of FE Electrical and Computer examination. The more time and effort you invest in this quest the better your chances of success will be.
Are these live sessions or prerecorded lessons?
These are prerecorded detailed tutorial videos which you can watch as many times as you’d like.
What if I am unhappy with the course?
We would never want you to be unhappy! If you are unsatisfied with your purchase, contact us in the first 30 days and we will give you a full refund.