Best Free Online Physics Courses

Learning physics, the most basic of sciences, can be both enjoyable and challenging. Many principles of Physics are challenging and can place a strain on your cognitive issues. Though an online course from a great tutor can quickly reduce this challenge.

The following is a curated list of the best physics free courses that will significantly increase your educational and professional prospects. Enrol now in your academic physics online course by just clicking on apply now.

Physics: Intro to Electricity & Magnetism

This course explores the basic electric charge, electric, and electric fields, using hand-drawn animations. This course will increase your physics grades by explicitly explaining basic introductory concepts and offering insight into the types of problems professors like to include in exams. You’ll learn what you need to know about the first two chapters of a standard physics course on electricity and magnetism, which cover electric charge and electric fields.

Provider: Scott Redmond(Udemy)
Subject: Physics
Duration: 3 hours 45 minutes
Start Date: Open

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Physics Essentials 1

You will learn about mechanics, sound, light, electricity, heat, and atomic structures by teaching physics. Understanding physics principles and how to apply methods and techniques to a range of problems is critical. A firm grasp of physics principles will help you evaluate issues, reasoning logically, and distinguish between essential and irrelevant concepts.

Provider: Brian Benjamin(Udemy)
Subject: Physics
Duration: 1 hour 29 minutes
Start Date: Open

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Einstein’s General Relativity and Gravitation

In the UCI course catalogue, this course classifies as Physics 255: General Relativity. An overview of Einstein’s gravitational theory. Einstein’s field equations, astronomical tests of Einstein’s idea, and gravitational waves are examples of tensor analysis.

Provider: UC Irvine
Subject: Physics
Duration: 10 weeks
Start Date: Open

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Intro to Physics

Learn the fundamentals of physics on the go in Italy, the Netherlands, and the United Kingdom by addressing some of the discipline’s most pressing questions from the last 2000 years. This curriculum is ideal for those who are new to the field. Develop your employability and skill set by engaging in creative, self-directed learning.

Provider: Udacity
Subject: Physics
Duration: 2 Months
Start Date: Open

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From the Big Bang to Dark Energy

This course will explore several subjects relating to the evolution of the Universe in the 13.7 billion years after the Big Bang. Around 7 billion years ago, the expansion of the Universe began to accelerate, and the Universe has now torn apart. Black Energy, the mysterious energy that multiplies in a vacuum, is the culprit. I’ll present the proof for these surprising findings and reflect on what we might learn shortly.

Provider: The University of Tokyo
Subject: Physics
Duration: 30 Hours
Start Date: Open

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Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets

You’ll solve a variety of challenging practise problems, and in an optional section, you’ll use your creativity to complete at-home experiments with everyday household items. The content is presented using rich multimedia guides, including film clips of preliminary tests, animations, and worked example problems, all narrated by a friendly narrator.

Provider: UNSW Sydney (The University of New South Wales)
Subject: Physics
Duration: 8 Weeks
Start Date: Open

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Astrophysics: The Violent Universe

This course is for people who want to learn more about astronomy than what can found in mainstream science papers and television shows. To get the best out of this course, you’ll need to have a good understanding of high school math and physics. We’ll also look at white dwarf stars and neutron stars, where quantum mechanics collide with relativity in mind-boggling ways.

Provider: Australian National University
Subject: Physics
Duration: 10 Weeks
Start Date: Open

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https://youtu.be/mwAPWnjQUIw

Electrical, Optical & Magnetic Materials and Devices

This course discusses the interactions between the output of electrical, optical, and magnetic devices and the microstructural properties of the materials used to produce them. The class takes a device-driven approach that focuses on new technology. Device implementations of physical phenomena discussed Electrical conductivity and doping, transistors, photodetectors and photovoltaics, luminescence. Light-emitting diodes, lasers, optical phenomena, photonics, ferromagnetism, and magnetoresistance are all discussed.

Provider: MIT
Subject: Physics
Duration: Variable
Start Date: Open

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