Physics - Electricity - High School and AP Physics from Udemy

This course is one of several courses designed for Algebra Based AP Physics 1 & 2 and Regents Physics. In this course we will cover the topics of one and two dimensional motion.

The videos and resources will include lectures, demonstrations, and plenty of worked out example problems with High School physics curriculum and the AP Physics 1 & 2 curriculum in mind. This is perfect for any student planning to take the AP exam or any Introductory College physics student. This course does not cover calculus based physics, though, any student enrolled in such course will still benefit from the ground work laid out here.

While this course does have sections for both High School and AP Level Physics, the videos intended for the AP crowd will be clearly labeled.

What's inside

Learning objective

Understand the basic concepts of electricity including ohm's law, voltage, current, and resistance, as well as wires and resisitivity.

Syllabus

Introduction

1 - Intoduction to Electricity and DC Circuits

Physics Course Online Course Map

Electricity Workbook

Current, Voltage, and Resistance

2 - Current

3 - Voltage

4 - Voltage Part 2

5 - Resistance

6 - Ohm's Law

7 - Resistivity

Meters

8 - Meters - Voltmeter

9 - Meters - Simulations A

10 - Meters - Simulations B

Electric Power and Ohmic Relationship

11 - Electric Power and Energy

12 - Ohmic vs non-ohmic

Examples, Word Problems, Work Sheets, and Solutions

Worksheet Review 1 - Current Part 1

Worksheet Review 1 - Current Part 2

Worksheet Review 2 - Resistivity

Worksheet Review 3 - Ohm's Law

Worksheet Review 4 - Electrical Power

Worksheet Review 5 - Electricity Conceptual MC Part 1 (AP)

Worksheet Review 5 - Electricity Conceptual MC Part 2 (AP)

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Provides a solid foundation in electricity concepts, which is essential for success in both high school and AP Physics courses

Includes demonstrations and worked-out example problems, which are helpful for students preparing for exams and introductory college physics

Focuses on algebra-based physics, which is appropriate for AP Physics 1 & 2 and Regents Physics, but may require calculus knowledge for college physics

Covers Ohm's Law, voltage, current, and resistance, which are fundamental concepts for understanding electricity and DC circuits

Offers worksheets and review materials, which can help students reinforce their understanding and prepare for assessments

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 Physics - Electricity - High School and AP Physics with these activities:

Review Basic Circuit Concepts

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Reinforce your understanding of basic circuit concepts to better grasp the more complex topics covered in this course.

Browse courses on Series Circuits

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Review notes from previous physics or electronics courses.
Work through practice problems on series and parallel circuits.
Familiarize yourself with Kirchhoff's Laws.

Ohm's Law Practice Problems

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Practice applying Ohm's Law to various circuit configurations to improve problem-solving speed and accuracy.

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Find a set of Ohm's Law practice problems online or in a textbook.
Solve each problem, showing your work.
Check your answers against the solutions.
Repeat with more challenging problems.

Create an Electricity Concept Map

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Visually organize the concepts learned in the course to improve understanding and retention.

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Identify the key concepts covered in the course.
Draw a concept map linking these concepts together.
Add brief explanations to each link.
Refine the map as you progress through the course.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Review 'Practical Electronics for Inventors'

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Expand your understanding of electronics and circuit design with a comprehensive guide.

View Practical Electronics for Inventors, Fourth... on Amazon

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Obtain a copy of 'Practical Electronics for Inventors'.
Read the chapters relevant to the course topics.
Work through the example problems.
Use the book as a reference when building circuits.

Build a Simple Circuit

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Gain hands-on experience by building a simple circuit and measuring voltage, current, and resistance.

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Gather the necessary components (resistors, breadboard, wires, multimeter, power supply).
Design a simple circuit diagram.
Build the circuit on the breadboard.
Use the multimeter to measure voltage, current, and resistance.
Compare your measurements to theoretical calculations.

Review 'Electricity and Magnetism' by Purcell and Morin

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Deepen your understanding of electricity and magnetism with a more advanced textbook.

View Electricity and Magnetism on Amazon

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Obtain a copy of 'Electricity and Magnetism' by Purcell and Morin.
Read the chapters relevant to the course topics.
Work through the example problems.
Compare the treatment of topics to the course material.

Circuit Simulation Project

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Design and simulate a more complex circuit using circuit simulation software to test your understanding of circuit behavior.

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Choose a circuit simulation software (e.g., LTspice, Multisim).
Design a circuit with multiple components and loops.
Simulate the circuit and analyze the results.
Modify the circuit to achieve desired behavior.
Document your design and simulation results.

Career center

Learners who complete Physics - Electricity - High School and AP Physics will develop knowledge and skills that may be useful to these careers:

Electrical Engineering Technician

An electrical engineering technician helps design, develop, and test electrical equipment. This role frequently uses knowledge of circuits, voltage, and resistance, all of which are covered in this course. The curriculum's focus on Ohm's Law and other electric concepts helps build a foundation in electrical principles essential to this career. The course's resources, such as lectures and worked examples, are directly related to the kind of real-world problem solving necessary for an electrical engineering technician. Anyone interested in this field should find this course highly relevant to their needs.

See salaries and explore the career path for Electrical Engineering Technician

Electronics Technician

An electronics technician builds, tests, and repairs electronic components and devices. These components are the building blocks of electrical systems, whose foundation is discussed in this course. The course’s focus on topics like voltage, current, and resistance, as well as its examples of meters and simulations, provide practical knowledge for the electronics technician. Through the course, one builds an essential knowledge of circuitry that is invaluable to the electronics technician's practice. Those looking for work as an electronics technician will find this course provides a relevant introduction to the knowledge needed.

See salaries and explore the career path for Electronics Technician

Renewable Energy Technician

Renewable energy technicians install and maintain renewable energy systems, such as solar and wind. These systems involve electrical circuits governed by the principles covered in this course. The exploration of Ohm's law, voltage and resistance, and power in this course, helps a potential renewable energy technician understand how these systems function. A renewable energy technician designs, tests, and maintains renewable energy systems, and this course provides crucial fundamental knowledge in electrical concepts relevant to those activities. Anyone seeking to work in renewable energy will find that this course lays a necessary foundation.

See salaries and explore the career path for Renewable Energy Technician

Physics Teacher

A physics teacher educates students on the principles of physics, and this course covers many foundational topics necessary for teaching. This course focuses on electricity, current, voltage, resistance, and power, all of which are vital subjects in a high school or introductory college physics curriculum. This course would be particularly useful to a physics teacher, as it contains problem sets and a structure based on the high school and AP physics curriculum. The resources, such as demonstrations and worked examples, are relevant to the kind of lesson planning required of a physics teacher. A physics teacher looking to refresh or solidify their understanding of electricity may find this course to be very useful.

See salaries and explore the career path for Physics Teacher

Computer Hardware Engineer

A computer hardware engineer designs and develops computer components, including their electrical aspects. A computer hardware engineer typically requires a master's degree, and they often require an understanding of the way that currents flow and how electrical equipment works. The principles explained in this course, including voltage, resistance, and Ohm’s Law may be helpful to this field. Though not a complete introduction to all aspects of electrical engineering, the course offers a solid grounding in the fundamental principles. A computer hardware engineer might find this course to be helpful in their career.

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Quality Control Inspector

A quality control inspector monitors products to ensure they meet company and industry standards. This role often involves testing the electrical components of products and requires familiarity with electrical concepts. This course's focus on electricity, including topics such as Ohm's Law and resistance, provide a foundation in the necessary principles. This knowledge helps a quality control inspector to understand how to effectively test and diagnose electrical issues. Anyone wishing to become a quality control inspector may find that this course offers background information that is relevant to this work.

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Research Assistant

A research assistant supports scientific research by performing experiments, collecting data, and analyzing results. Research involving electrical circuits requires a solid understanding of the principles discussed in this course. The course's overview of voltage, current, resistance, and power are relevant to many types of lab work. This course's focus on example problems and detailed instruction can be very useful for the kind of data analysis and problem solving done by a research assistant. Those working in STEM fields and wishing to become a research assistant will find this course to be useful.

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Science Tutor

A science tutor provides instruction and guidance to students in science subjects. This course is designed for both high school and AP level physics. A science tutor must be familiar with topics like electricity and circuits, which are covered in this course. The course is structured with high school and AP curriculums in mind, making it a helpful resource for a science tutor who may need to assist students with these topics. The tutor could benefit from the worked out examples and problem sets included in the course. A science tutor should find this course helpful in preparing to tutor physics students.

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Science Communicator

A science communicator translates scientific topics for the general public, which requires a solid grasp of fundamental scientific principles. This course in electricity and circuits may help a science communicator in their role if they decide to cover these topics. The course's breakdown of electrical concepts can help someone to explain complex scientific processes in clear and accessible terms. A science communicator would benefit from its direct teaching of foundational principles, and the course's lessons will help build a base level of knowledge. Though it is not specific to this career field, this course may be useful for a science communicator.

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Science Writer

A science writer creates content about scientific topics for various audiences. This course may be useful to science writers who wish to write about electricity or circuits. A science writer needs to understand the core principles of physics in order to communicate these ideas effectively to a general audience. By covering such topics as Ohm's Law and electrical power, this course can help a science writer build a base level of knowledge on these subjects. Though it is not directly relevant to the role, the course may be helpful for a science writer.

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Materials Scientist

A materials scientist researches and develops new materials with specific properties, including electrical conductivity. The lessons in this course, particularly on resistivity and material properties, may be useful to someone working in this field. A materials scientist often needs to understand the electrical properties of materials and how they respond under different conditions. This course, while not directly related to all material science, offers some grounding in electrical concepts that are helpful to the work of a materials scientist. Someone who wishes to become a materials scientist may find this course to be helpful.

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Automation Engineer

An automation engineer designs and implements automated systems that often involve electrical components and circuits. This course’s focus on electrical principles, like Ohm's Law, voltage, and current, may be useful to them. The work of an automation engineer often touches on the kind of circuitry that is covered in this course. A basic understanding of the electrical principles covered in this course may be helpful to an automation engineer. Those looking for a career as an automation engineer may find this course to be helpful in building background knowledge.

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Software Developer

A software developer designs and builds software applications, which may involve interfacing with hardware that rely on electrical principles. This course's focus on electricity, while not directly related to software development, may be useful for a software developer who wants to understand how electrical components work. By covering topics such as voltage, current, and resistance, the course offers basic information for understanding the physical systems that interact with software. Though not directly in line with the core responsibilities of software development, a software developer may find the material covered in the course to be interesting.

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Data Analyst

A data analyst interprets and analyzes data to help make informed business decisions. Although this role does not directly deal with physics principles, the analytical skills developed through this course may be useful. The course includes worked examples and problem sets which may help foster the kind of logical thinking that is useful to a data analyst. The problem solving techniques stressed in this course may be helpful to the practice of a data analyst. While not directly related, someone who wants to become a data analyst may find this course helpful.

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Technical Writer

A technical writer creates documentation for technical products and processes. While a technical writer may not necessarily need a physics background, the principles described here may be useful. The course focuses on real-world electrical applications, providing essential knowledge for a technical writer working on electrical systems. A technical writer may find this course helpful if they are tasked with explaining the function or design of electrical equipment. Though not a perfect fit, this course may be useful for a technical writer.

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Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Physics - Electricity - High School and AP Physics.

Practical Electronics for Inventors, Fourth Edition

Save

Provides a comprehensive overview of electronics, including circuit analysis, components, and design techniques. It useful reference for students who want to delve deeper into the practical aspects of electricity. While not required for the course, it can serve as a valuable resource for understanding real-world applications and troubleshooting circuits. It is commonly used by hobbyists and students alike.

Practical Electronics for Inventors, Fourth Edition

Paperback

Electricity and Magnetism

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Provides a more in-depth treatment of electricity and magnetism, suitable for students who want to go beyond the introductory level. It covers topics such as electrostatics, magnetostatics, and electromagnetic waves. While it may be more advanced than the course material, it can provide a deeper understanding of the underlying principles. This book is often used as a textbook for undergraduate physics courses.

Electricity and Magnetism

Hardcover

$$$

Electricity and Magnetism

Kindle Edition

$$$

Physics - Electricity - High School and AP Physics

What's inside

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Activities

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