Best Quantum Computing Courses to Learn in March 2025
Looking to enhance your skills? We’ve curated a list of the top-rated quantum computing courses available this month. These courses are highly rated by students and offer comprehensive learning experiences.
10. QC051: Math Prerequisites for QC – Content moved to QC101
Instructor: Kumaresan Ramanathan
THE CONTENTS OF THIS COURSE HAVE BEEN ADDED TO QC101. Purchase this course if you want only the math lessons
Course Highlights:
- Rating: 4.68 ⭐ (845 reviews)
- Students Enrolled: 4283
- Course Length: 15122 hours
- Number of Lectures: 114
- Number of Quizzes: 0
QC051: Math Prerequisites for QC – Content moved to QC101, has an average rating of 4.68, with 114 lectures, based on 845 reviews, and has 4283 subscribers.
You will learn about Math prerequisites for Quantum Computing and Quantum Physics This course is ideal for individuals who are Students who studied Math & Physics in 12th grade high school many years ago and now need a refresher course in basic Math It is particularly useful for Students who studied Math & Physics in 12th grade high school many years ago and now need a refresher course in basic Math.
Learn More About QC051: Math Prerequisites for QC – Content moved to QC101
What You Will Learn
- Math prerequisites for Quantum Computing and Quantum Physics
9. Relativistic Quantum Mechanics: Spin & Dirac Equation
Instructor: Emanuele Pesaresi
Mathematical Intuition behind Relativistic Quantum Mechanics
Course Highlights:
- Rating: 4.93 ⭐ (7 reviews)
- Students Enrolled: 250
- Course Length: 43173 hours
- Number of Lectures: 56
- Number of Quizzes: 0
Relativistic Quantum Mechanics: Spin & Dirac Equation, has an average rating of 4.93, with 56 lectures, based on 7 reviews, and has 250 subscribers.
You will learn about Learn the properties of (intrinsic) Angular Momentum Learn how the concept of spin naturally arises in Quantum Mechanics Learn how spin helps derive the Relativistic Quantum Theory Learn how to derive the Dirac equation Learn how to solve the Dirac equation Learn how to derive the relativistic spectrum of the hydrogen atom Learn how the Dirac equation contains in the Schrodinger equation Learn the properties of the eigenvalues and eigenfunctions of operators related to angular momentum Learn spherical harmonics Learn how to solve the Legendre differential equation This course is ideal for individuals who are physics students or physics enthusiast or students who want to understand the mathematics behind relativistic quantum mechanics It is particularly useful for physics students or physics enthusiast or students who want to understand the mathematics behind relativistic quantum mechanics.
Learn More About Relativistic Quantum Mechanics: Spin & Dirac Equation
What You Will Learn
- Learn the properties of (intrinsic) Angular Momentum
- Learn how the concept of spin naturally arises in Quantum Mechanics
- Learn how spin helps derive the Relativistic Quantum Theory
- Learn how to derive the Dirac equation
- Learn how to solve the Dirac equation
- Learn how to derive the relativistic spectrum of the hydrogen atom
- Learn how the Dirac equation contains in the Schrodinger equation
- Learn the properties of the eigenvalues and eigenfunctions of operators related to angular momentum
- Learn spherical harmonics
- Learn how to solve the Legendre differential equation
8. Introduction to Quantum Mechanics-I
Instructor: Dr. Shahid Ali Yousafzai
An undergraduate course based on the D.J. Griffiths’s book
Course Highlights:
- Rating: 4.74 ⭐ (17 reviews)
- Students Enrolled: 209
- Course Length: 164018 hours
- Number of Lectures: 149
- Number of Quizzes: 10
Introduction to Quantum Mechanics-I, has an average rating of 4.74, with 149 lectures, 10 quizzes, based on 17 reviews, and has 209 subscribers.
You will learn about Gain a strong understanding of foundational quantum principles and concepts. Develop the ability to apply quantum mechanics to various physical systems and solve Schrödinger's equation. Explore quantum mechanics in one dimension, focusing on particle-in-a-box problems and potentials. Master quantum mechanics in three dimensions, including angular momentum, hydrogen atom, and central potentials. This course is ideal for individuals who are This course is designed for students and enthusiasts of physics, aspiring physicists, engineers, or anyone with an interest in understanding the fundamental principles and applications of quantum mechanics as outlined in David J. Griffiths' introductory book. It is particularly useful for This course is designed for students and enthusiasts of physics, aspiring physicists, engineers, or anyone with an interest in understanding the fundamental principles and applications of quantum mechanics as outlined in David J. Griffiths' introductory book.
Learn More About Introduction to Quantum Mechanics-I
What You Will Learn
- Gain a strong understanding of foundational quantum principles and concepts.
- Develop the ability to apply quantum mechanics to various physical systems and solve Schrödinger's equation.
- Explore quantum mechanics in one dimension, focusing on particle-in-a-box problems and potentials.
- Master quantum mechanics in three dimensions, including angular momentum, hydrogen atom, and central potentials.
7. Computational Physics: Scientific Programming with Python
Instructor: Dr. Börge Göbel
From numerical methods to exciting applications: Differential equations, eigenvalue problems, Monte Carlo methods & more
Course Highlights:
- Rating: 4.57 ⭐ (907 reviews)
- Students Enrolled: 6905
- Course Length: 74825 hours
- Number of Lectures: 184
- Number of Quizzes: 6
Computational Physics: Scientific Programming with Python, has an average rating of 4.57, with 184 lectures, 6 quizzes, based on 907 reviews, and has 6905 subscribers.
You will learn about Getting Started: A beginner-friendly crash course about NumPy, functions, loops, conditionals, lists, arrays & plots Numerical methods: Derivatives & integrals, differential equations & eigenvalue problems, interpolation & Monte Carlo methods Practice at Physics Problems: Moment of inertia, magnetic field of a wire, radioactive decay, harmonic oscillators, free fall, rolling balls Application to Advanced Problems: Chaotic systems, heat equation, 3-body problem, spaceship mission, coupled pendulums, magnetism, graphene & quantum physics This course is ideal for individuals who are This course is for everyone: Python beginners & advanced programmers or Everyone who likes physics and/or programming or Science students, who want to explore a modern field of physics or … or who want to prepare for their computational physics exam 😉 It is particularly useful for This course is for everyone: Python beginners & advanced programmers or Everyone who likes physics and/or programming or Science students, who want to explore a modern field of physics or … or who want to prepare for their computational physics exam ;-).
Learn More About Computational Physics: Scientific Programming with Python
What You Will Learn
- Getting Started: A beginner-friendly crash course about NumPy, functions, loops, conditionals, lists, arrays & plots
- Numerical methods: Derivatives & integrals, differential equations & eigenvalue problems, interpolation & Monte Carlo methods
- Practice at Physics Problems: Moment of inertia, magnetic field of a wire, radioactive decay, harmonic oscillators, free fall, rolling balls
- Application to Advanced Problems: Chaotic systems, heat equation, 3-body problem, spaceship mission, coupled pendulums, magnetism, graphene & quantum physics
6. IBM Certified Quantum Computation – Qiskit: Practice Exams
Instructor: Kane Yoshioka
Get Ready for the ‘IBM Certified Associate Developer – Quantum Computation using Qiskit’ with 200 Practice Questions.
Course Highlights:
- Rating: 5 ⭐ (2 reviews)
- Students Enrolled: 85
- Course Length: 0 hours
- Number of Lectures: 0
- Number of Quizzes: 4
IBM Certified Quantum Computation – Qiskit: Practice Exams, has an average rating of 5, 4 quizzes, based on 2 reviews, and has 85 subscribers.
You will learn about Passing the IBM Certified Associate Developer – Quantum Computation using Qiskit v0.2X exam. Learning the basics of Qiskit. Creating quantum circuits using Qiskit. Executing simulations using Qiskit with the created quantum circuits. Learning the fundamentals of quantum computing. This course is ideal for individuals who are For those considering taking the IBM Certified Associate Developer – Quantum Computation using Qiskit v0.2X exam and aiming to pass. or For those looking to deepen their knowledge of Qiskit and quantum programming. It is particularly useful for For those considering taking the IBM Certified Associate Developer – Quantum Computation using Qiskit v0.2X exam and aiming to pass. or For those looking to deepen their knowledge of Qiskit and quantum programming.
Learn More About IBM Certified Quantum Computation – Qiskit: Practice Exams
What You Will Learn
- Passing the IBM Certified Associate Developer – Quantum Computation using Qiskit v0.2X exam.
- Learning the basics of Qiskit.
- Creating quantum circuits using Qiskit.
- Executing simulations using Qiskit with the created quantum circuits.
- Learning the fundamentals of quantum computing.
5. Quantum Computing Masterclass: Unveiling the Future
Instructor: Silicofeller Quantum Academy
A Comprehensive Introduction to Quantum Mechanics, Qubits, and Real-World Applications
Course Highlights:
- Rating: 5 ⭐ (4 reviews)
- Students Enrolled: 14
- Course Length: 7769 hours
- Number of Lectures: 7
- Number of Quizzes: 0
Quantum Computing Masterclass: Unveiling the Future, has an average rating of 5, with 7 lectures, based on 4 reviews, and has 14 subscribers.
You will learn about Fundamental Concepts: Understand the principles of quantum mechanics, such as superposition and entanglement, and their role in quantum computing. Introduction to Qubits: Learn how qubits differ from classical bits and how they are manipulated in quantum systems. Applications Across Industries: Discover real-world use cases of quantum computing in fields like finance, cryptography, AI, and healthcare. Future Potential: Gain insights into the current state and future trajectory of quantum computing and how it may revolutionize technology. This course is ideal for individuals who are Students: Undergraduate or postgraduate students studying physics, computer science, or related fields who want to explore quantum computing. or Tech Enthusiasts: Individuals curious about emerging technologies and the future of computation. or Professionals: IT and engineering professionals looking to upskill and understand the basics of quantum computing. or Entrepreneurs and Innovators: Those seeking to understand the potential business applications of quantum computing. It is particularly useful for Students: Undergraduate or postgraduate students studying physics, computer science, or related fields who want to explore quantum computing. or Tech Enthusiasts: Individuals curious about emerging technologies and the future of computation. or Professionals: IT and engineering professionals looking to upskill and understand the basics of quantum computing. or Entrepreneurs and Innovators: Those seeking to understand the potential business applications of quantum computing.
Learn More About Quantum Computing Masterclass: Unveiling the Future
What You Will Learn
- Fundamental Concepts: Understand the principles of quantum mechanics, such as superposition and entanglement, and their role in quantum computing.
- Introduction to Qubits: Learn how qubits differ from classical bits and how they are manipulated in quantum systems.
- Applications Across Industries: Discover real-world use cases of quantum computing in fields like finance, cryptography, AI, and healthcare.
- Future Potential: Gain insights into the current state and future trajectory of quantum computing and how it may revolutionize technology.
4. Quantum Computing Risk And Security Masterclass
Instructor: Taimur Ijlal | Award winning cybersecurity leader and instructor
Learn and mitigate the risks introduced by Quantum Computing in this comprehensive course
Course Highlights:
- Rating: 4.83 ⭐ (20 reviews)
- Students Enrolled: 117
- Course Length: 6392 hours
- Number of Lectures: 14
- Number of Quizzes: 0
Quantum Computing Risk And Security Masterclass, has an average rating of 4.83, with 14 lectures, based on 20 reviews, and has 117 subscribers.
You will learn about Fundamental Of Quantum Computing Risks of Quantum Computing Post-Quantum Cryptography NIST Standards On Post-Quantum Cryptography Mitigating Quantum Threats This course is ideal for individuals who are Cybersecurity professionals or CISOs, CTOs and CROs or Risk Management Professionals or IT Auditors or Anyone interested in the Quantum landscape It is particularly useful for Cybersecurity professionals or CISOs, CTOs and CROs or Risk Management Professionals or IT Auditors or Anyone interested in the Quantum landscape.
Learn More About Quantum Computing Risk And Security Masterclass
What You Will Learn
- Fundamental Of Quantum Computing
- Risks of Quantum Computing
- Post-Quantum Cryptography
- NIST Standards On Post-Quantum Cryptography
- Mitigating Quantum Threats
3. Certified Quantum Computing Expert
Instructor: Silicofeller Quantum Academy
Navigate the Quantum Landscape with Quantum Theory, Qubits, and Harness the Power of Quantum Computing
Course Highlights:
- Rating: 4.69 ⭐ (18 reviews)
- Students Enrolled: 1091
- Course Length: 20647 hours
- Number of Lectures: 10
- Number of Quizzes: 0
Certified Quantum Computing Expert, has an average rating of 4.69, with 10 lectures, based on 18 reviews, and has 1091 subscribers.
You will learn about Become familiar with the basic concepts and terminology of quantum computing, including qubits, quantum states, quantum gates, and the quantum circuit model. Understand the fundamental principles of quantum computing and its potential advantages. Acquire a solid foundation in essential mathematics for quantum computing. Master the key concepts and techniques of quantum mechanics, including Dirac notations and postulates. Gain proficiency in working with qubits, quantum gates, and multi-qubit systems. Explore advanced topics such as entanglement, Bell states, and quantum teleportation. This course is ideal for individuals who are Students interested in quantum computing and its practical applications. or Professionals seeking to enhance their skills and knowledge in quantum computing and circuit design automation. or Researchers or scientists interested in exploring the potential of quantum computing. It is particularly useful for Students interested in quantum computing and its practical applications. or Professionals seeking to enhance their skills and knowledge in quantum computing and circuit design automation. or Researchers or scientists interested in exploring the potential of quantum computing.
Learn More About Certified Quantum Computing Expert
What You Will Learn
- Become familiar with the basic concepts and terminology of quantum computing, including qubits, quantum states, quantum gates, and the quantum circuit model.
- Understand the fundamental principles of quantum computing and its potential advantages.
- Acquire a solid foundation in essential mathematics for quantum computing.
- Master the key concepts and techniques of quantum mechanics, including Dirac notations and postulates.
- Gain proficiency in working with qubits, quantum gates, and multi-qubit systems.
- Explore advanced topics such as entanglement, Bell states, and quantum teleportation.
2. Quantum Computing Made Simple
Instructor: Sergei Shirkin
A quick and easy guide to Quantum Computing for programmers and researchers
Course Highlights:
- Rating: 4.67 ⭐ (73 reviews)
- Students Enrolled: 391
- Course Length: 6745 hours
- Number of Lectures: 39
- Number of Quizzes: 34
Quantum Computing Made Simple, has an average rating of 4.67, with 39 lectures, 34 quizzes, based on 73 reviews, and has 391 subscribers.
You will learn about Quantum computing Fundamentals of Quantum physics Complex numbers for Quantum computing Linear algebra for Quantum computing Python and Qiskit for Quantum Computing This course is ideal for individuals who are Developers curious about quantum computing or Beginner Quantum Programmers or Data Scientists who are interested in quantum computing It is particularly useful for Developers curious about quantum computing or Beginner Quantum Programmers or Data Scientists who are interested in quantum computing.
Learn More About Quantum Computing Made Simple
What You Will Learn
- Quantum computing
- Fundamentals of Quantum physics
- Complex numbers for Quantum computing
- Linear algebra for Quantum computing
- Python and Qiskit for Quantum Computing
1. QC201 : Advanced Math for Quantum Computing
Instructor: Kumaresan Ramanathan
Learn the Advanced Math you need for later courses on Quantum Computing Algorithms
Course Highlights:
- Rating: 4.55 ⭐ (322 reviews)
- Students Enrolled: 3151
- Course Length: 13603 hours
- Number of Lectures: 36
- Number of Quizzes: 0
QC201 : Advanced Math for Quantum Computing, has an average rating of 4.55, with 36 lectures, based on 322 reviews, and has 3151 subscribers.
You will learn about Advanced Math Techniques for Quantum Computing This course is ideal for individuals who are Students who have completed my earlier courses and want to move to the next level in Quantum Computing It is particularly useful for Students who have completed my earlier courses and want to move to the next level in Quantum Computing.
Learn More About QC201 : Advanced Math for Quantum Computing
What You Will Learn
- Advanced Math Techniques for Quantum Computing
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