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AC circuits Analysis
Rating: 4.4 out of 5(17 ratings)
1,110 students

AC circuits Analysis

AC circuits Analysis (Part 1)
Last updated 12/2023
English

What you'll learn

  • students will learn AC circuit analysis in detail

Course content

3 sections9 lectures1h 58m total length
  • Course Introduction2:24

    This course introduces AC circuits analysis, explaining how to use calculators to solve problems and recommending textbooks by Thomas Alexander and William Hague, with free access to forthcoming lectures.

  • Introduction to AC circuit Analysis19:09
  • Phasor relationship of inductance and capacitance18:33

    Explore the phasor relationship of inductance and capacitance in ac circuits, showing how energy stores in magnetic and electrostatic fields, and how current and voltage relate through impedance and reactance.

  • Problem solving section I - RC circuit9:48

    Solve rc circuit problems using impedance and reactance analysis, compute current and voltage across the capacitor, and practice converting between polar and rectangular forms in a phasor approach.

  • Problem solving section II - RL circuits5:05
  • Finding Equivalent Impedance (Z) in AC circuits13:12

    Learn to determine the equivalent impedance of circuits with resistors, inductors, and capacitors by converting to impedances and reducing to a single complex value.

Requirements

  • Yes. My previous course on Circuit theory for beginners

Description

This course is a sequel of circuit theory for beginners (DC Analysis). If learners are good at DC analysis, this course will be very easy to understand the AC circuit analysis. I suggest learners to watch DC analysis part because DC part is a Prerequisite for AC analysis. scientific calculator plays major role in solving AC circuit problems. so kindly use calculator when we discuss the course.

the main difference between AC and DC circuit is the term frequency. Frequency is zero for DC and different value for AC. So as far as AC concern we need to be a little careful about the term frequency.

This course is mainly intended to provide a sound foundation to engineering students who are begin to learn circuit analysis. I strongly recommend this course to all first year engineering students and specifically would be helpful for electronics and communication students, Electrical engineering department students, Instrumentation engineering department students. 

please go through the following content of DC circuit analysis

course content

  • Introduction to Circuit Theory

  • Ohms Law

  • Ohm's Law - Problem Solving

  • Kirchhoff Law - KVL & KCL

  • Voltage Division Rule

  • Current Division Rule

  • Finding Equivalent Resistance

  • Problem Solving Session on Lectures 1- 7

  • Review of Series and Parallel Circuit

  • Nodal analysis and its Problem Solving

  • Source Transformation

  • Star to Delta conversion (Y to Delta Conversion)

  • Thevenin's Theorem

  • Thevenins GATE Problem Solving

  • Theveninss Theorem with Bridge circuit

  • Norton's Theorem

  • Superposition Theorem

  • Maximum Power Transfer Theorem


Who this course is for:

  • Beginner and experinced on engineering and circuit analysis