Jai earned his Bachelor's in Electrical Engineering and Computer Science from Stanford, where he dug into circuit analysis, signal processing, and semiconductor physics firsthand. He connects theoretical concepts like Kirchhoff's laws and Fourier transforms to practical applications, making dense material easier to internalize.

Steve earned his M.S. in Electrical Engineering and now works as a practicing engineer, so he teaches circuit analysis, signal processing, and electromagnetics with the fluency of someone applying these concepts professionally. Whether it's Kirchhoff's laws in a sophomore circuits course or Laplace transforms in a signals class, he connects theory to the practical reasoning that makes it stick.

Prakash earned his MS in Electrical Engineering with a power and energy systems concentration, then moved into industry where he mentored junior engineers through their PE exams. He teaches circuit theory, power systems, and electronics with the kind of practical context that textbooks skip — explaining not just how to solve a Thevenin equivalent, but when and why you'd use one in a real design. His coursework and hands-on industry experience cover everything from signal processing to three-phase power analysis.

Circuit analysis, signal processing, and electromagnetic theory sit at the intersection of physics and engineering — territory Beepul navigates daily as a biomedical engineering student at Duke. He unpacks concepts like Kirchhoff's laws and RC circuit behavior by tying the math to what's physically happening in the circuit, which makes complex problems more approachable.

I am a recent graduate with a master's in electrical engineering from Case Western Reserve University. I won the Bill and Melinda Gates Millennium Scholarship which covers full tuition up to Ph.D. I was on the Dean's List for three consecutive years. Additionally, I won the OZY Media Genius Award in 2015 to work on high-temperature superconductors. I currently work as a Technology Analyst at Accenture. I am also seriously considering whether I should go for a Ph.D. or not.

I am a full time college professor teaching Mathematics and engineering courses.

Currently finishing her Master's in Electrical Engineering at UT Dallas, Alisa is deep in the material that undergraduate EE students are working to understand — circuit analysis, signal processing, and electromagnetics. She explains dense topics like Laplace transforms and transfer functions by tying the math back to physical behavior in the circuit, which makes the theory stick. Her honors-level undergraduate work in the same program means she's navigated every stage of the EE curriculum firsthand.

Circuit analysis, signal processing, electromagnetic theory — Min holds both a BS and MS in Electrical Engineering, so he teaches these topics from direct academic depth rather than secondhand familiarity. He's particularly effective at walking through Kirchhoff's laws, Thevenin equivalents, and AC steady-state analysis in ways that connect textbook formulas to physical intuition about what's happening in a circuit.

Jake earned his B.S. in Electrical Engineering and brings hands-on knowledge of circuit analysis, signal processing, and digital logic design to every session. Whether it's Kirchhoff's laws, op-amp configurations, or AC/DC power systems, he breaks down complex EE concepts into clear, buildable steps. Rated 5.0 by students.

Intensely curious, I am interested in STEM subjects and the liberal arts. I tutor to help you reach your educational goals and because it's immensely gratifying to see my students succeed.

Circuit analysis, Kirchhoff's laws, and signal basics are part of Matthew's daily engineering toolkit — his dual focus in mechanical and robotics engineering at WPI requires constant work with electrical systems, from motor controllers to sensor circuits. He explains concepts like Thevenin equivalents and AC phasor analysis by tying them to physical systems students can visualize. Rated 5.0 by his students.

Akio studied computer engineering at Purdue, where Digital Systems Design was one of the courses he taught as a TA — meaning he's walked dozens of students through circuit analysis, logic gates, and signal processing firsthand. He unpacks concepts like Kirchhoff's laws and AC/DC circuit behavior by tying them to the digital systems where they actually matter.

Circuit analysis, Kirchhoff's laws, op-amp configurations, digital logic — Jett is immersed in all of it as an electrical and computer engineering major at UT Austin. He explains concepts like Thevenin equivalents and RC transient response by building up from first principles, so students understand the physics behind the math rather than just pattern-matching homework solutions. That approach has earned him a 5.0 student rating.

Circuit analysis, signal processing, semiconductor physics, control systems — electrical engineering covers enormous ground, and Ajay holds a bachelor's degree in the field. He digs into specific trouble spots like Kirchhoff's laws, Thevenin equivalents, or Fourier transforms based on what a student's coursework actually requires. That targeted approach keeps sessions efficient and directly tied to upcoming exams or projects.

Pursuing his bachelor's in electrical engineering at Stony Brook, Rohan digs into circuit analysis, signal processing, and electromagnetic theory on a daily basis. He explains concepts like Kirchhoff's laws, RC/RL transient responses, and phasor analysis by building from the underlying physics, so the math behind each circuit element actually makes sense.

Muntaser earned his B.S. in Computer Engineering from Illinois Tech, where circuit analysis, signal processing, and digital logic design were core to his coursework. He tackles EE topics like Kirchhoff's laws, AC/DC circuit behavior, and Boolean algebra by grounding each concept in hands-on problem-solving rather than pure theory.

I'm currently an undergraduate student at Georgia Institute of Technology pursuing a degree in Electrical Engineering. I mostly tutor subjects that reside in the STEM field as those subjects are my strong points. I have been a tutor in the past back in high school. During that time, I realized that helping students understand difficult material can be very awarding. In my free time, when I'm not studying for school or practicing sports, I like to play video games and hangout with friends. Every once in a while I'll pick up my violin and play songs that I've learned in the past; I find it very relaxing.

Currently pursuing his electrical engineering degree at Arizona State, Robert is deep in the coursework — circuit analysis, signal processing, electromagnetics — and remembers exactly which concepts tripped him up and how he overcame them. He walks through Kirchhoff's laws, Thevenin equivalents, and AC steady-state analysis with the perspective of someone actively solving these problems every week.

Experienced Teacher holding a Doctorate Degree in Electrical Engineering with a demonstrated history of working in the education industry. Strong education professional with a Specialist focused in Mathematics -Algebra, Middle School Math, Elementary School Math, Advance Functions, Calculus, Physics, MS Office, Power BI.

Circuit analysis, Ohm's law, and AC/DC fundamentals show up constantly in Martin's mechanical engineering program at RIT, where electrical systems intersect with everything from control theory to sensor design. He approaches EE topics the way an engineer uses them — grounded in practical applications like motor control and signal processing, so the theory has a clear purpose.

Having earned his degree in Electrical Power Engineering, Julian teaches circuit analysis, signal processing, and power systems from direct professional knowledge. He walks through Kirchhoff's laws, AC/DC power calculations, and transformer theory with the specificity that comes from someone who's applied these concepts beyond the classroom. Rated 5.0 by students.

Tom earned his B.S. in Computer Systems Engineering, which means he spent years deep in circuit analysis, signal processing, and digital logic design. He breaks down concepts like Kirchhoff's laws, AC/DC circuit behavior, and op-amp configurations by tying them back to the systems-level thinking that makes electrical engineering click.

Currently finishing his electrical engineering degree at UConn, Aaron digs into circuit analysis, signal processing, and digital logic with students who are navigating the same coursework he recently completed. He breaks down concepts like Kirchhoff's laws, AC/DC circuit behavior, and op-amp configurations in ways that connect theory to practical lab work. Rated 5.0 by students.

Circuit analysis, signal processing, and electromagnetic theory can feel overwhelming when textbooks pile on math without physical intuition. Annalyn holds a certificate in laser and optical technology alongside her aerospace degree, giving her hands-on experience with the electromagnetic principles, sensor systems, and circuit fundamentals that underpin electrical engineering coursework.

As a passionate educator with over 18 years of teaching experience, I find joy in making complex technical concepts accessible to all students. Holding dual Master's degrees in Information Systems and Business Administration from Johns Hopkins University, I have taught a wide range of subjects, including cybersecurity and electrical engineering, at both the college level and through various tutoring roles. My teaching philosophy centers on understanding each student's unique background and tailoring lessons to their specific needs, often using real-world examples to clarify abstract ideas. Currently, as a full-time Cybersecurity Engineer with multiple active certifications, including CISSP and Security+, I continuously integrate my professional experiences into my teaching, fostering an engaging and practical learning environment. I am motivated by the satisfaction of helping students grasp challenging topics and develop their skills, knowing that as I teach, I also deepen my own understanding.