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Expert Electrical Engineering tutor
Electrical engineering tutors in the USA
Tutors for electrical engineering fundamentals
Electrical engineering handled by USA instructors
Electrical engineering explained with real examples
Rahul taught 2 days ago
The session focused on applying Thevenin's theorem to AC circuits containing impedances. The Student practiced calculating ZTH and VTH, using complex number manipulations and circuit analysis techniques. A homework problem was assigned to practice finding the total impedance of a series-parallel AC circuit.
Thévenin Equivalent with AC Sources
Complex Number Arithmetic in Circuit Analysis
Current Divider Rule with Impedances
Maximum Power Transfer Theorem for AC Circuits
KVL and KCL with Impedances
Understanding Open Circuits
Rahul taught 5 days ago
The Student and Tutor reviewed AC circuits, waveforms, and impedance. They practiced calculating impedance in RL circuits and discussed RMS values, power factor, and their implications for electricity bills. The Student was assigned to analyze current and voltage behavior in RLC circuits for the next session.
AC Waveform Fundamentals
Frequency and Amplitude
Sinosoidal Waveform Equation
Phase Shift and Lead/Lag
Complex Impedance
Rectangular and Polar Forms of Complex Numbers
RMS Values and Power
Rahul taught 6 days ago
The Student and Tutor covered the Superposition Theorem, including its application and limitations, followed by a discussion and practice problem on Norton's Theorem and equivalent circuits. The student practiced circuit analysis techniques and will send additional files related to AC circuits, charging/discharging circuits, and electronic amplifiers for review in the next session.
Superposition Theorem
Nodal Analysis (KCL)
Thévenin's Theorem vs. Norton's Theorem
Norton Equivalent Circuit Calculation
Short Circuits and Node Potentials
Series and Parallel Equivalencies
Manasa taught 7 days ago
The session covered transfer functions, step responses, and impulse responses in RLC circuits. The Student practiced circuit analysis in the s-domain using techniques like source transformation and voltage division. The plan is to continue with chapter 11.2 in the next session, and then to have a review session on Wednesday to prepare for the upcoming exam.
Transfer Functions
Impedance in Transfer Function Analysis
Second-Order Transfer Functions
Step Response
Characteristic Equation and System Stability
Impulse Response
Circuit Analysis Techniques in the s-Domain
Manasa taught 9 days ago
The student and tutor worked through an op-amp circuit analysis problem, including nodal analysis to find output voltage, determining input voltage limits for linear operation, and designing a circuit with specific output requirements. The student practiced applying KCL and understanding the virtual ground concept. There was no homework assigned, but the student indicated they would reach out when closer to their next exam for more tutoring.
Op-Amp Configurations: Non-Inverting Amplifier
Nodal Analysis (KCL) for Op-Amp Circuits
Virtual Ground Concept
Op-Amp Output Voltage Limits and Linear Operation
Combining Op-Amp Configurations: Multi-Stage Amplifiers
Manasa taught 10 days ago
The session involved analyzing op-amp circuits using nodal analysis, mesh analysis, and Thevenin equivalents. The Student practiced solving for output voltages, loop currents, and equivalent resistances in various circuit configurations. The Student is to email a PDF of solutions for the next class.
Nodal Analysis (KCL)
Virtual Ground Concept in Op-Amps
Op-Amp Saturation
Inverting Amplifier Configuration
Mesh Analysis (KVL) and Supermesh
Thévenin and Norton Equivalents
Force Sensing Resistors (FSRs)
An overview of electrical engineering fundamentals
All about electrical engineering
Electrical engineering focuses on the design, development, and application of electrical systems, including circuits, power generation, control systems, and telecommunications. It is a crucial field in industries such as renewable energy, robotics, consumer electronics, and automation. A strong foundation in mathematics, physics, and circuit analysis is essential for success in electrical engineering.
Many students struggle with complex circuit analysis, electromagnetics, signal processing, and microcontrollers due to their mathematical intensity and abstract nature. Additionally, mastering software tools like MATLAB, Multisim, and PSpice can be challenging without hands-on practice.
To learn electrical engineering effectively, students should use textbooks (e.g., “Fundamentals of Electric Circuits” by Alexander & Sadiku), online courses (Coursera, MIT OpenCourseWare), and circuit simulation tools. Hands-on lab work, DIY electronics projects, and internships provide practical experience.
Study groups, engineering communities (IEEE, Stack Exchange), and tutoring help reinforce learning. A combination of theory, simulation, and real-world application ensures a strong grasp of electrical engineering concepts.
Who should study from an electrical engineering tutor?
Students struggling with complex topics
Electrical engineering concepts like electromagnetic fields, power electronics, and circuit design can be overwhelming due to the heavy use of mathematics and physics.
An electrical engineering tutor simplifies these by using real-world analogies, interactive problem-solving, and visual explanations. Personalized guidance ensures that difficult formulas and principles become easier to grasp, helping you gain confidence in tackling tough subjects.
Students preparing for competitive exams
Exams like FE Electrical and GRE require strategic preparation. An electrical engineering tutor can identify your weak areas, provide structured revision plans, and guide you through past exam questions.
With practice tests and time-management strategies, an electrical engineering tutor helps improve accuracy and efficiency, boosting your chances of scoring high.
Students struggling with hands-on applications
Many students find it difficult to apply theoretical knowledge to real-world projects, simulations, or lab work. An electrical engineering tutor with industry experience can guide you through MATLAB simulations, PCB design, Arduino programming, or circuit troubleshooting.
Learning under an expert ensures you develop practical problem-solving skills, which are crucial for engineering jobs.
How to select the right electrical engineering tutor?
Qualifications and teaching experience
Look for a tutor with a degree in electrical engineering (B.S., M.S., or Ph.D.) and expertise in areas like signal processing, circuit design, or embedded systems.
Tutors with academic or industry experience can provide structured explanations and tailor lessons to your needs.
Hands-on knowledge and practical skills
A strong tutor should be proficient in software tools like MATLAB, Simulink, PCB design, and microcontroller programming (Arduino, FPGA, Raspberry Pi) for practical learning.
If you're preparing for exams, choose someone experienced in problem-solving strategies.
Affordability and student reviews
Electrical engineering tutoring rates range from $30 to $100 per hour, depending on expertise. Check reviews and testimonials to find the right fit.
Wiingy connects you with expert electrical engineering tutors at $28 per session, ensuring affordability without compromising quality.
Frequently asked questions
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