Free Online Quantum Mechanics Courses and Certifications 2024
Quantum Mechanics is a branch of physics that studies the behavior of matter and energy at the atomic and subatomic level. It is a fascinating field of study, and is suitable for those interested in physics, mathematics, and engineering. Related courses include quantum computing, quantum optics, and quantum information theory. People who study quantum mechanics are often physicists, mathematicians, and engineers.
Popular Courses
This course, Foundations of Quantum Mechanics, is part of the Master of Science in Electrical Engineering degree at CU Boulder. It can be taken for academic credit as ECEA 5610.
Learn More Joe Polchinski explores the quest to unify quantum mechanics and relativity in his 2013 KITP lecture. He examines the implications of these theories when applied to the very small, fast, and massive, and how they can be reconciled.
Learn More Sean Carroll, a renowned physicist, provides an overview of the history and development of quantum mechanics, the most accurate description of reality known to science. Join him to explore this mysterious and fascinating field.
Learn More This course explores the concepts of entanglement and angular momentum in quantum mechanics. It covers topics such as tensor product states, Bell inequalities, and representations of angular momentum. Students will gain an understanding of the spectrum of central potentials and the application of angular momentum in quantum mechanics.
Learn More This course provides an introduction to the fundamentals of quantum mechanics. Students will learn about de Broglie waves, the wavefunction, probability interpretation, the Schrodinger equation, inner products, Hermitian operators, and the Heisenberg uncertainty principle. Through this course, students will gain a better understanding of the principles of quantum mechanics.
Learn More This advanced graduate physics course covers topics such as designing new quantum algorithms, exploring multi-party quantum protocols, and understanding quantum bits and quantum logic gates. Students will gain a deeper understanding of quantum mechanics and its applications.
Learn More This course provides an in-depth look at quantum mechanics and its mathematical foundations. In Part 1, students will be introduced to the basics of wave mechanics and the variational principle. They will learn about the Schrödinger equation, wave functions, and the Heisenberg uncertainty principle. Additionally, they will explore the concept of angular momentum and its application to quantum systems.
Learn More This course covers the fundamentals of quantum mechanics, including de Broglie waves, wavefunctions, probability interpretation, the Schrodinger equation, inner products, Hermitian operators, and expectation values. Students will gain an understanding of these concepts and how they are used to describe the behavior of particles on the quantum level.
Learn More This course explores the concept of topology in condensed matter, focusing on the idea that certain quantities remain unchanged in insulating systems with localized particles. When these quantities are altered, the system becomes conducting and propagating particles are created. The course examines how these changes can be used to tie quantum knots.
Learn More This course provides an overview of the two main methods used to determine the geometrical structure of molecules: molecular mechanics and quantum mechanics. It covers topics such as the principles of quantum mechanics, the Schrödinger equation, and the application of these principles to the study of molecular structure. Students will gain an understanding of the fundamentals of quantum mechanics and its application to molecular structure.
Learn More This course explores the dynamics of quantum mechanics, including Heisenberg's uncertainty principle and compatible operators. Students will gain an understanding of the Schrodinger and Heisenberg pictures of quantum mechanics, as well as coherent and squeezed states of the harmonic oscillator. The course also covers the application of these concepts to various physical systems.
Learn More This course provides an overview of the hardware of a quantum computer, exploring its potential applications and how it could revolutionize the way we think about information and our daily lives. It helps students understand the fundamentals of quantum computing and the implications of its use.
Learn More This course introduces students to the fundamentals of quantum science and technology. It covers topics such as quantum physics, engineering solutions, and the disruptive potential of emerging quantum systems. Students will gain an understanding of the challenges and opportunities of this rapidly advancing field.
Learn More This course explores the architecture, algorithms, and protocols of a quantum computer and quantum internet. It covers topics such as micro-architectures, compilers, and programming languages, as well as the basics of quantum computing and communication. Students will gain an understanding of how to control and operate a large-scale quantum computer.
Learn More This course covers the fundamentals of one-dimensional quantum mechanics, including scattering, phase-shifts, time delays, Levinson's theorem, and resonances. Students will learn about barrier penetration and the Ramsauer-Townsend effect, as well as the application of central potentials to solve scattering problems. The course provides a comprehensive introduction to the principles of quantum mechanics.
Learn More This course provides an overview of quantum chemistry, exploring the application of quantum theory to atoms, molecules, and materials. Students will gain an understanding of wavefunctions, probability, special notations, and approximations, as well as the fundamentals of quantum mechanics. With this knowledge, they will be able to explore the fascinating world of the quantum.
Learn More Quantum Mechanics Courses
Career Trends
Career Prospects
| Average Salary | Position Overview
|
Engineering Technician | $54,460 per year
| An engineering technician's main responsibility is to support engineers in the creation of novel products or solutions. This may entail conducting tests, documenting data, procuring materials, or repairing components. It is important to note that, in contrast to engineering technicians, engineers have completed a bachelor's degree program or higher. |
Test Engineer | $133,058 per year | Test engineers are responsible for conducting comprehensive evaluations of materials, procedures, and mechanical or electrical systems to guarantee that customers receive functional, high-quality products. They perform tests on a range of components and features to detect and resolve technical problems. |
Materials Engineer | $111,658 per year | Materials engineers specialize in working with various substances such as metals, ceramics, and plastics, with the goal of designing new and improved materials. Their duties include developing, refining, and evaluating materials that are utilized in manufacturing an array of products, ranging from computer chips and airplane wings to golf clubs and medical equipment. |
Software Engineer | $146,511 per year |
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Educational Paths
1. Bachelor's degree in Physics: A bachelor's degree in physics can provide a solid foundation for studying quantum mechanics. Courses in classical mechanics, electromagnetism, and quantum mechanics will be covered.
2. Master's degree in Physics: A master's degree in physics will provide a more advanced understanding of quantum mechanics. Courses in quantum field theory, statistical mechanics, and particle physics will be covered.
3. PhD in Physics: A PhD in physics is the highest level of education available for studying quantum mechanics. This degree involves conducting original research in quantum mechanics and related fields.
4. Online courses: There are many online courses available that cover the basics of quantum mechanics. These courses can be taken individually or as part of a certificate program.
Frequently Asked Questions and Answers
Q1: Where to find free quantum mechanics courses?
If you're looking for free quantum mechanics courses, you're in luck! There are a variety of online resources available, from MOOCs to online education providers such as Udemy, Coursera, Edx, Skillshare, Udacity, Bitdegree, Eduonix, QuickStart, YouTube and more. With these resources, you can find free quantum mechanics tutorials and courses to get free training and practical knowledge of quantum mechanics.
Q2: What are the basic rules of quantum mechanics?
The core principle of quantum mechanics is encapsulated in Schrödinger's wave equation, which characterizes the state of an individual particle through a single quantum wave. The amplitude of this wave at any given position signifies the likelihood of detecting the particle at that specific location.
Q3: What is an example of a quantum mechanics?
Illustrations of such applications encompass lasers, electron microscopes, magnetic resonance imaging (MRI) apparatus, and the constituent elements employed in computer hardware. The exploration of semiconductors played a pivotal role in the development of essential components like diodes and transistors, which have become indispensable in contemporary electronic systems, computers, and telecommunications devices.
Q4: What Quantum Mechanics courses can I find on AZ Class?
On this page, we have collected free or certified 97 Quantum Mechanics online courses from various platforms. The list currently only displays up to 50 items. If you have other needs, please contact us.