QC101 Quantum Computing & Quantum Physics for Beginners

Master Quantum Computers, Quantum Cryptography, and Quantum Physics with Microsoft Q# (Q Sharp) & IBM Quantum Experience

Welcome to the bestselling quantum computing course on Udemy!

What you’ll learn

  • Use quantum cryptography to communicate securely.
  • Develop, simulate, and debug quantum programs on Microsoft Q#.
  • Run quantum programs on a real quantum computer through IBM Quantum Experience.
  • Use Dirac’s notation and quantum physics models to analyze quantum circuits.

Course Content

  • Introduction –> 2 lectures • 6min.
  • Quantum Cryptography –> 13 lectures • 30min.
  • Foundation: Complex Numbers, Probability, Linear Algebra & Logic –> 12 lectures • 23min.
  • Developing a Math Model for Quantum Physics –> 4 lectures • 5min.
  • Quantum Physics of Spin States –> 7 lectures • 15min.
  • Modeling Quantum Spin States with Math –> 8 lectures • 20min.
  • Reversible and Irreversible State Transformations –> 2 lectures • 5min.
  • Multi-Qubit Systems –> 1 lecture • 2min.
  • Entanglement –> 2 lectures • 6min.
  • Quantum Computing Model –> 11 lectures • 22min.
  • Quantum Programming with Microsoft Q# –> 24 lectures • 35min.
  • IBM Quantum Experience –> 2 lectures • 2min.
  • Conclusion –> 3 lectures • 4min.
  • Appendix A –> 15 lectures • 39min.
  • Appendix B –> 1 lecture • 1min.

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Requirements

  • 12th grade level high-school Math and Physics.
  • You must have studied Math and Physics upt o 12th grade level and *enjoyed* it. Quantum Computing is primarily about Math & Physics. There is very little coding involved..
  • 12th grade level, high school Math: Complex numbers, linear algebra, probability, statistics, & boolean logic.

Welcome to the bestselling quantum computing course on Udemy!

Quantum Computing is the next wave of the software industry. Quantum computers are exponentially faster than classical computers of today. Problems that were considered too difficult for computers to solve, such as simulation of protein folding in biological systems, and cracking RSA encryption, are now possible through quantum computers.

How fast are Quantum Computers? A 64-bit quantum computer can process 36 billion billion bytes of information in each step of computation. Compare that to the 8 bytes that your home computer can process in each step of computation!

Companies like Google, Intel, IBM, and Microsoft are investing billions in their quest to build quantum computers. If you master quantum computing now, you will be ready to profit from this technology revolution.

This course teaches quantum computing from the ground up. The only background you need is 12th grade level high-school Math and Physics.

If it has been a while since you completed your high-school math courses, and if you want a quick review, take a look at the prerequisites course: QC051: Math Foundation for Quantum Computing.

IMPORTANT: You must enjoy Physics and Math to get the most out of this course. This course is primarily about analyzing the behavior of quantum circuits using Math and Quantum Physics. While everything you need to know beyond 12th grade high school science is explained here, you must be aware that Quantum Physics is an extremely difficult subject. You might frequently need to stop the video and replay the lesson to understand it. How will you know if this course is right for you?  The first 13 lessons in the course can be previewed for free. Watch the free previews before purchasing the course. If you enjoy the first 13 lessons, you will probably enjoy the rest of the course.

In the first part of this course you will learn to communicate securely using quantum cryptography.

Next, you will learn basic quantum physics along with the mathematical tools you need for analyzing quantum systems.

Finally, you will use industry tools to develop quantum software: Microsoft Q# on Visual Studio and IBM Quantum Experience.

Additionally, the course materials include a downloadable Q# framework that you can use to experiment with quantum algorithms, entanglement, and superposition.

 

As a developer why would you want to learn math and physics? Shouldn’t you focus more on Qiskit, Q#, or Cirq?

Quantum computers do not execute instructions one by one. There are no quantum ‘instructions’ for a quantum computer to execute. Instead, a quantum computer operates on a quantum circuit. A quantum circuit is built from quantum gates. The behavior of these quantum circuits is determined by quantum physics. To understand how quantum computers work, math and physics are essential.

A quantum computer is usually paired with a classical computer which manages peripheral operations (such as input & output) for the quantum computer. Peripheral operations on the classical computer are programmed using either Microsoft Q#, or Python (IBM Qiskit), or Google Cirq.

The core skill for quantum computing is a mastery of quantum physics and math, not peripheral operations with Q#, Qiskit, or Cirq.

 

Why is this course so short ? How much can you learn in 3.5 hours?

This course has been designed to be succinct. Every word the instructor speaks was carefully drafted and polished to be clear and unambiguous. No fluff.

 

For a better learning experience, open the transcript panel.

You will see a small “transcript” button at the bottom-right of the video player on Udemy’s website. If you click this button, the transcript of the narration will be displayed. The transcripts for all the videos have been hand-edited for accuracy. Opening the transcript panel will help you understand the concepts better.

If you missed an important concept, then you can click on text in the transcript panel to return directly to the part you want to repeat. Conversely, if you already understand the concept being presented, you can click on text in the transcript panel to skip ahead in the video.

 

Enroll today and join the quantum revolution!

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