Ohm's Law Made Easy for Parallel Circuits from Udemy

Welcome to Ohm’s Law Made Easy for Parallel Circuits. By the end of this course, students will be comfortable with the Parallel Circuit Rules and the Voltage, Current, Resistance and Power Math Calculations for Parallel Circuits. Both Parallel Resistance Formulas are explained in detail and short cuts are provided to save you time once you understand the Formulas.

Ohm’s Law expresses the relationship between Voltage, Current and Resistance in an Electrical or Electronic Circuit. By knowing any two values, voltage and current, voltage and resistance, or current and resistance, the third value can be calculated mathematically. Understanding the Math behind these relationships can greatly improve you understanding and diagnostic thought process.

Series Circuits are used when lower than source or battery voltage is desired, or when you want components to share the source voltage.

Parallel Circuits are used when we want each device to receive the full source voltage. In Automotive circuits, most are parallel because, more often than not, it is desired that each component receives full battery or source voltage.

This course is Geared toward Automotive students, Beginning Electronics Students and Do it Yourselfers who desire a Solid Foundation and Understanding of Parallel Circuits and Ohm’s Law. This course does more than just show you a formula and tell you about a concept, it walks you through the thought process, the steps, and the reasoning behind them.

This course provides practice examples and detailed explanations of how the answers were calculated and determined.

Understanding Ohm's Law Math when coupled with Basic Electrical Fundamentals, can help students recognize incorrect voltage measurements and become better at troubleshooting, and Electrical diagnostics.

Let's get started.

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Geared towards automotive students, beginning electronics students, and DIYers, this course empowers learners with a solid foundation in parallel circuits and Ohm's Law

Develops a deep understanding of the relationship between voltage, current, and resistance in parallel circuits

Provides practical examples and detailed explanations to reinforce learning and improve troubleshooting skills

Simplifies complex formulas and provides shortcuts to enhance efficiency

Assumes no prior knowledge, making it accessible to learners of varying backgrounds

Emphasizes the practical applications of Ohm's Law in automotive and electronic circuits

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Ohm's Law Made Easy for Parallel Circuits with these activities:

Review Electricity and Electronics

Show steps

This course builds upon foundational electrical and electronics knowledge. Reviewing this book will ensure you have the necessary prerequisite understanding to succeed in this course.

View Introductory Circuit Analysis, Global Edition on Amazon

Show steps

Read the first five chapters focusing on the fundamental concepts of electricity and electronics
Complete the practice problems at the end of each chapter

Follow online tutorials on parallel circuits

Show steps

This course focuses on parallel circuits but also involves series circuits. Tutorials on parallel circuits will supplement the concepts covered in class.

Browse courses on Parallel Circuits

Show steps

Search for online tutorials on parallel circuits
Watch the tutorials and take notes on the key concepts

Build a simple LED circuit

Show steps

This course is largely based upon practical application. Building a simple LED circuit will help you apply the theory learned in the course practically.

Browse courses on Series Circuits

Show steps

Gather the necessary materials: LED, resistor, battery, and wires
Connect the components in series
Measure the voltage across the LED and the current through the circuit
Use Ohm's Law to calculate the resistance of the circuit

Five other activities

Expand to see all activities and additional details

Show all eight activities

Form a study group with classmates

Show steps

This course involves complex concepts. Forming a study group will allow you to discuss the material with peers and get help when needed.

Show steps

Identify classmates who are interested in forming a study group
Meet regularly to discuss the course material

Solve Ohm's Law problems

Show steps

This course involves extensive application of Ohm's Law. Solving Ohm's Law problems outside of class will give you sufficient practice to master this topic.

Browse courses on Ohm's Law

Show steps

Find a list of Ohm's Law problems online or in a textbook
Solve the problems using the Ohm's Law formula

Attend a workshop on electrical fundamentals

Show steps

This course builds on electrical fundamentals. Attending a workshop will give you exposure to advanced material and allow you to ask questions to experts in the field.

Browse courses on Electronics

Show steps

Research electrical fundamentals workshops in your area
Register for a workshop
Attend the workshop and take notes on the key concepts

Tutor other students in the course

Show steps

This course involves complex concepts. Tutoring others will allow you to reinforce your understanding of the material and identify areas where you need improvement.

Show steps

Identify students who are struggling with the course material
Offer to tutor them and help them understand the concepts

Contribute to an open-source project related to electronics or programming

Show steps

This course involves practical application of electrical and programming concepts. Contributing to an open-source project will allow you to apply your knowledge and gain valuable experience.

Browse courses on Electronics

Show steps

Identify an open-source project related to electronics or programming
Read the project documentation and identify areas where you can contribute
Make changes to the project and submit a pull request

Career center

Learners who complete Ohm's Law Made Easy for Parallel Circuits will develop knowledge and skills that may be useful to these careers:

Electrical Engineer

An Electrical Engineer designs, develops, tests, and maintains electrical systems and components. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design electrical circuits.

See salaries and explore the career path for Electrical Engineer

Research Scientist

A Research Scientist conducts research in the field of electrical engineering. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and can help develop the skills needed to conduct research in electrical engineering.

See salaries and explore the career path for Research Scientist

Electronics Engineer

An Electronics Engineer designs, develops, tests, and maintains electronic devices and systems. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design electronic circuits.

See salaries and explore the career path for Electronics Engineer

Power Systems Engineer

A Power Systems Engineer designs, develops, and maintains electrical power systems. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design power systems.

See salaries and explore the career path for Power Systems Engineer

Electrical Design Engineer

An Electrical Design Engineer designs, develops, and tests electrical systems. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design electrical circuits.

See salaries and explore the career path for Electrical Design Engineer

Renewable Energy Engineer

A Renewable Energy Engineer designs, develops, and maintains renewable energy systems. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design renewable energy systems.

See salaries and explore the career path for Renewable Energy Engineer

Robotics Engineer

A Robotics Engineer designs, develops, and maintains robots. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a strong foundation in the principles of electricity and helps develop the skills needed to analyze and design electrical circuits in robots.

See salaries and explore the career path for Robotics Engineer

Electrical Contractor

An Electrical Contractor is responsible for installing, maintaining, and repairing electrical systems in buildings and other structures. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop the skills needed to pass the electrical contractor exam.

See salaries and explore the career path for Electrical Contractor

Construction Electrician

A Construction Electrician installs, maintains, and repairs electrical systems in buildings. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding parallel circuits, which are commonly used in electrical systems.

See salaries and explore the career path for Construction Electrician

Industrial Electrician

An Industrial Electrician installs, maintains, and repairs electrical systems in industrial settings. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop troubleshooting skills.

See salaries and explore the career path for Industrial Electrician

Maintenance Electrician

A Maintenance Electrician maintains and repairs electrical systems in buildings and facilities. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop troubleshooting skills.

See salaries and explore the career path for Maintenance Electrician

Utility Electrician

A Utility Electrician installs, maintains, and repairs electrical distribution systems for utilities. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop troubleshooting skills.

See salaries and explore the career path for Utility Electrician

Test Engineer

A Test Engineer tests and evaluates electrical or electronic devices and systems. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop troubleshooting skills.

See salaries and explore the career path for Test Engineer

Field Service Technician

A Field Service Technician installs, maintains, and repairs electrical or electronic equipment in the field. Ohm's Law Made Easy for Parallel Circuits may be useful as it provides a solid foundation in understanding electrical circuits and can help develop troubleshooting skills.

See salaries and explore the career path for Field Service Technician

Automotive Electrician

An Automotive Electrician is responsible for maintaining vehicles, diagnosing electrical problems, and repairing or replacing defective components. Ohm's Law Made Easy for Parallel Circuits may be useful as it covers the principles of electricity and provides practice examples that can help develop a foundation in electrical fundamentals.

See salaries and explore the career path for Automotive Electrician

Ohm's Law Made Easy for Parallel Circuits

14 deals to help you save

Good to know

Save this course

Activities

Career center

Reading list

Share

Similar courses