Quantum Physics from Beginner to Expert (Quantum mechanics) from Udemy

The Bestseller for quantum physics & Part of the udemy business collection

"Phenomenal course. Prior to this course, I thought I would never be able to understand quantum mechanics. I would certainly recommend this course to anyone that is interested in learning quantum mechanics.“ - Maximus Akrem Nwider

"I have learned more theory here than in a semester in a university course. The information is incredibly well organized. I cannot express the insanely good quality of this course." - Aaron

This course is for everyone: beginner to expert.

We will cover the whole band width of quantum mechanics starting from the initial experimental observations and ending up with relativistic quantum theory.

Quantum mechanics is arguably among the most fascinating fields of science.

It has made numerous appearances in modern pop-culture and is present in our everyday lives. Still, it is also very challenging to get a grasp at this topic - even understanding the most fundamental concepts can be very difficult without instructions.

However, I think that this most fascinating field of science is often taught either too vague or with a too strong focus on the mathematics. Instead of watching random Youtube videos or going through hundred of hours of university courses, I think that Udemy courses are a nice platform for purposeful learning. You are kindly invited to join this carefully prepared course that will teach you the 101 of quantum physics.

Why me?

My name is Börge and I am a postdoc working as a scientist in quantum theory. Due to my expertise in the field (more than 10 years), I know which topics are most important and which parts can be cut short (especially the very dry parts). I have not forgotten the time when I learned about quantum physics and still remember the problems that I and other students had. I have refined my advisor skills as a tutor of Bachelor, Master and PhD students in theoretical physics.

This course is for you if you ...

... have ever wondered what is the big deal with quantum physics
... want to know why we need quantum physics
... want to learn the methods how to actually calculate quantum problems like the tunnel effect
... want to walk comfortably in the quantum world without being totally overwhelmed by its difficult language
... have interest in popular physics phenomena like quantum computing or superconductivity and want to understand their core ideas and relations to quantum mechanics
... are about to attend a university course
... if you have already attend a university course and want to learn what comes next

... if you simply want to have a carefully condensed refresher before your exams :-)

What's inside

Learning objectives

The basics: experiments that motivated quantum mechanics as well as the theoretical concepts behind it.
Solving the schrödinger equation: doing this together step-by-step, teaches you more than 1000 oversimplified videos.

Advanced topics beyond university courses: quantum computing and relativistic quantum mechanics.

The basics: experiments that motivated quantum mechanics as well as the theoretical concepts behind it.
Solving the schrödinger equation: doing this together step-by-step, teaches you more than 1000 oversimplified videos.
Advanced topics beyond university courses: quantum computing and relativistic quantum mechanics.

Syllabus

Understanding the structure and purpose of this course

Hello and welcome

The structure of this course

Mathematical Tutorial

Typo: In the "definition" of the delta distribution, the limit of a should go to zero and not infinity.

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers a wide range of quantum mechanics topics, starting with initial experimental observations and progressing to relativistic quantum theory, which may appeal to learners with varying levels of expertise

Includes hands-on exercises, such as solving the Schrödinger equation step-by-step and scientific programming using Python, which can help learners develop practical skills

Explores advanced topics like quantum computing and relativistic quantum mechanics, potentially exceeding the scope of typical university courses and providing a deeper understanding

Requires learners to set up Python 3 with Jupyter notebooks for scientific programming, which may require some initial effort and technical proficiency

Includes a section on Mathematica, which is proprietary software that requires a license, potentially posing a barrier to some learners

Reviews summary

Comprehensive quantum physics for all levels

According to learners, this course is a phenomenal resource for understanding quantum mechanics, even if you thought you never could. Students report that the material is incredibly well organized and of insanely good quality. Many feel they have learned more theory here than in a university course semester. The course is praised for covering the whole band width of quantum mechanics, suitable for everyone from beginner to expert, including advanced topics like relativistic quantum theory and quantum computing. It successfully makes a challenging subject accessible.

Includes step-by-step problem-solving and numerical methods.

"Solving the Schrödinger equation together step-by-step, teaches you more than 1000 oversimplified videos."

"I learned the methods how to actually calculate quantum problems like the tunnel effect."

"The section on scientific programming using Python was very useful for practical application."

Makes a difficult subject understandable for beginners.

"Prior to this course, I thought I would never be able to understand quantum mechanics."

"It is very challenging to get a grasp at this topic - even understanding the most fundamental concepts can be very difficult without instructions."

"I finally feel comfortable walking in the quantum world without being totally overwhelmed by its difficult language."

Covers quantum mechanics from basics to advanced topics.

"This course is for everyone: beginner to expert."

"We will cover the whole band width of quantum mechanics starting from the initial experimental observations and ending up with relativistic quantum theory."

"Learning about advanced topics like quantum computing and relativistic quantum mechanics was a great addition."

Provides depth comparable or exceeding university courses.

"I have learned more theory here than in a semester in a university course."

"This course goes deeper into some topics than my university classes did."

"It provided a clearer theoretical foundation than I got from my university textbook."

Students highly praise the structure and quality of the content.

"The information is incredibly well organized."

"I cannot express the insanely good quality of this course."

"Phenomenal course... I would certainly recommend this course to anyone that is interested in learning quantum mechanics."

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 Quantum Physics from Beginner to Expert (Quantum mechanics) with these activities:

Review Classical Mechanics

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Reinforce your understanding of classical mechanics concepts like energy, momentum, and forces, which provide a foundation for understanding quantum mechanics.

Browse courses on Classical Mechanics

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Review key concepts from a classical mechanics textbook or online resource.
Solve practice problems related to energy conservation and momentum.
Summarize the key differences between classical and quantum mechanics.

Brush Up on Linear Algebra

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Strengthen your linear algebra skills, as quantum mechanics relies heavily on vector spaces, matrices, and linear operators.

Browse courses on Linear Algebra

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Review matrix operations, eigenvalues, and eigenvectors.
Practice solving linear systems of equations.
Familiarize yourself with the concept of vector spaces.

Read 'Quantum Mechanics: The Theoretical Minimum' by Leonard Susskind and Art Friedman

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Gain a deeper understanding of the core concepts of quantum mechanics through a well-regarded introductory text.

View General Relativity: The Theoretical Minimum on Amazon

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Read assigned chapters before they are covered in the course.
Work through the example problems in the book.
Compare the book's explanations with the course lectures.

Four other activities

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Show all seven activities

Solve Schrödinger Equation Problems

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Improve your ability to solve the Schrödinger equation for various potentials, a fundamental skill in quantum mechanics.

Browse courses on Schrödinger Equation

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Find practice problems involving different potential energy functions.
Solve the Schrödinger equation analytically or numerically.
Compare your solutions with known results or solutions from textbooks.

Create a Quantum Mechanics Cheat Sheet

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Consolidate your knowledge by creating a concise cheat sheet of key formulas, concepts, and definitions in quantum mechanics.

Browse courses on Quantum Mechanics

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Review the course materials and identify the most important formulas and concepts.
Organize the information into a logical and easy-to-read format.
Include brief explanations and examples for each entry.

Read 'Principles of Quantum Mechanics' by R. Shankar

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Expand your understanding of quantum mechanics with a rigorous and comprehensive textbook.

View Principles of Quantum Mechanics on Amazon

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Read chapters related to the course topics after they are covered in class.
Work through the more challenging problems in the book.
Use the book as a reference for advanced topics and derivations.

Simulate a Quantum System

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Apply your knowledge by developing a simulation of a simple quantum system, such as a particle in a box or a harmonic oscillator.

Browse courses on Simulation

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Choose a quantum system to simulate.
Write code to solve the Schrödinger equation for the chosen system.
Visualize the results of your simulation.
Analyze the behavior of the system under different conditions.

Career center

Learners who complete Quantum Physics from Beginner to Expert (Quantum mechanics) will develop knowledge and skills that may be useful to these careers:

Quantum Physicist

A Quantum Physicist delves into the fundamental principles of quantum mechanics, exploring the behavior of matter and energy at atomic and subatomic levels. This course is a valuable asset for aspiring quantum physicists, as it thoroughly covers quantum mechanics, from initial experimental observations to relativistic quantum theory. The course's approach to solving the Schrödinger equation step-by-step, and its coverage of advanced topics like quantum computing, aligns perfectly with the kind of work a quantum physicist undertakes. By taking this course, you will build a strong foundation in quantum physics, learning from an expert in quantum theory who understands the common challenges faced by students in this subject. This will help you develop a deeper understanding of the theory and its applications.

See salaries and explore the career path for Quantum Physicist

Theoretical Physicist

The work of a Theoretical Physicist involves developing and applying mathematical models to understand the universe and its phenomena. This course on quantum physics is extremely beneficial for theoretical physicists, given quantum mechanics is a core area of study. The course's coverage of advanced topics, such as relativistic quantum mechanics, aligns with the work done within theoretical physics. By taking this course, you will explore the full range of quantum mechanics, giving you a comprehensive understanding of its theoretical background. This will help you in a career as a theoretical physicist and increase your research success. The course's expert-led instruction provides a unique opportunity to learn complex topics in a well-structured way.

See salaries and explore the career path for Theoretical Physicist

Research Scientist

A Research Scientist in physics often designs and conducts experiments or simulations to explore various physical phenomena. This quantum physics course can be helpful, as quantum mechanics is a foundational subject in modern physics, and frequently applied in research. You might find the course particularly useful with regard to experimental design. The course’s detailed approach to solving the Schrödinger equation, and its instruction on mathematical tools and techniques, will give you the background necessary as a researcher in physics. This course provides an effective learning method for quantum physics that is more manageable than other formats. This well-organized approach can help students and researchers build a deeper level of comfort in this subject matter.

See salaries and explore the career path for Research Scientist

Computational Physicist

A Computational Physicist uses computer simulations to model and analyze complex physical systems. This course is helpful to an aspiring computational physicist. The course includes exercises in numerical solutions to the Schrödinger equation and the application of Python, which are critical tools for a computational physicist. The course's emphasis on understanding the mathematical language of quantum mechanics, from complex numbers to operator algebra, perfectly complements the skill set needed for computational work. This course is a unique opportunity to not only gain theoretical knowledge, but also practical skills in using computation to understand quantum systems. As a computational physicist, you may find the Python instruction to be particularly valuable.

See salaries and explore the career path for Computational Physicist

Physics Professor

A Physics Professor teaches physics courses at the university level. This course in quantum physics helps provide a solid foundation for anyone interested in teaching the subject. The thoroughness of the course, covering both fundamental and advanced quantum mechanics concepts, will be highly valuable for teaching. The course's design provides clear and concise explanations of core concepts, and helps prepare for the kind of instruction that a professor might be responsible for. This course provides a full breadth of knowledge, and can help aspiring teachers prepare for any level of instruction; additionally, the instructor has prior experience as a teacher in the university setting. The course may allow the transition from theoretical physicist to physics professor.

See salaries and explore the career path for Physics Professor

Quantum Engineer

A Quantum Engineer applies the principles of quantum mechanics to develop new technologies, typically working on the hardware for quantum devices. This quantum physics course may be helpful to someone interested in quantum engineering. Because the course covers advanced topics such as quantum computing and relativistic quantum mechanics, the course provides a useful foundation for quantum engineering. By taking this course, you will strengthen your understanding of the practical applications of quantum theory. You will also gain a deeper understanding of the underlying quantum principles that govern this field. The course's curriculum helps to bridge the gap between theory and practice, which is an important part of quantum engineering.

See salaries and explore the career path for Quantum Engineer

Data Scientist

A Data Scientist uses statistical and analytical methods to extract insights from data, often developing complex algorithms and models. While not directly related, this course may be helpful to a data scientist. The course's focus on mathematical formalism, such as operators and expectation values, can be helpful for anyone working with complex data sets. The course’s explanation of the Schrödinger equation and its solutions can enhance the ability to do work that requires an understanding of non-classical systems. This course offers a unique opportunity to enhance mathematical reasoning and problem solving skills, which are useful in data science. The course may be useful to those interested in modeling complex data.

See salaries and explore the career path for Data Scientist

Software Developer

A Software Developer designs and develops software applications, often having to understand complex systems. This course may be helpful to a software developer because it covers scientific programming, specifically using Python as a tool. In addition, the deep explanation of quantum physics provides a unique challenge to those who are good at abstract thinking, and this can have positive implications for a career in software. The course will teach a new way to approach complex problems by providing an example of some of the harder problems in all of science. The course material may also provide additional understanding of the way algorithms are applied in physics, providing exposure to a different way of thinking than is typical in computer science.

See salaries and explore the career path for Software Developer

Science Writer

A Science Writer communicates complicated scientific concepts to the general public, often needing a strong background in various scientific fields. This course may be helpful for a science writer, as it provides a deep understanding of quantum physics. The course material provides a systematic introduction to the concepts of quantum mechanics, and the common challenges that learners might face. The course will help explain some of the more interesting concepts in quantum mechanics, such as wave particle duality. This course is good preparation for anyone trying to explain complex scientific material in a clear and engaging way, such as a science writer.

See salaries and explore the career path for Science Writer

High School Physics Teacher

A High School Physics Teacher educates students in the fundamental concepts of physics. This course may be helpful to high school physics teachers, because quantum physics is an often-intimidating concept that forms an important part of the modern understanding of physics. The course provides detailed explanations of quantum mechanics, beginning with the basic concepts, which is useful for a teacher who needs to have deep expertise in the subject. This course will give high school physics teachers a stronger foundation in the topic than may have been provided in their formal training, and may allow them to explain these concepts with more confidence.

See salaries and explore the career path for High School Physics Teacher

Technology Consultant

A Technology Consultant provides expert advice to organizations on how to use technology to achieve their goals. This quantum physics course may be useful to technology consultants. As quantum technologies emerge, consultants will need a working understanding of quantum computing and other quantum advancements. This course provides background in these areas, as well as other areas of quantum theory. By completing this course, you will be better prepared to provide advice on new technologies related to quantum mechanics. The course helps build a deeper understanding of current and cutting edge technological developments.

See salaries and explore the career path for Technology Consultant

Patent Attorney

A Patent Attorney works in intellectual property law, often dealing with patents in technology and science. This course may be helpful to those interested in a patent attorney career. As quantum technologies become more prominent, a patent attorney with a strong understanding of quantum mechanics will be highly valuable. The course’s comprehensive approach to quantum physics, including its mathematical underpinnings, can provide context for work in intellectual property. The course prepares you for work in patent law by providing an understanding of the underlying theory of many cutting-edge technologies.

See salaries and explore the career path for Patent Attorney

Financial Analyst

A Financial Analyst assesses the performance of investments and provides recommendations. This course may be useful for a financial analyst, through its ability to improve abstract reasoning skills. The mathematical theory of quantum mechanics involves complex calculations and models, which are beneficial for a financial analyst. The course will also improve problem solving skills by exposing you to the complexities of quantum physics. Although not directly related, the course provides a different way of approaching problems that can be useful in the field of finance.

See salaries and explore the career path for Financial Analyst

Market Research Analyst

A Market Research Analyst studies market conditions, typically collecting and analyzing data to recommend a business strategy. This course may be useful to a market research analyst, in that it will help improve analytical and abstract reasoning skills. The course will also enhance problem-solving skills by exposing you to the complexities of quantum mechanics. While this topic does not directly relate to market research, the course may help improve the analytical frameworks of those interested in the area, as it provides a novel approach to problem solving.

See salaries and explore the career path for Market Research Analyst

Technical Writer

A Technical Writer creates user manuals, training materials, and other documents that explain complex technical information. The course may be helpful to a technical writer because it will increase their understanding of quantum mechanics. As quantum technologies mature, technical writers will need deep knowledge of these new fields. The course's approach to explaining theory, and its comprehensive format, can help a technical writer improve their skills in explaining difficult subjects to a variety of audiences. Though the topic may not be directly related to their work, it will provide experience in communicating a complex subject.

See salaries and explore the career path for Technical Writer

Quantum Physics from Beginner to Expert (Quantum mechanics)

What's inside

Learning objectives

Syllabus

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Reviews summary

Comprehensive quantum physics for all levels

Activities

Career center

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