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Updated in [September 05th, 2023]

Skills and Knowledge Acquisition:

1. Qubit Basics: Understand the fundamental concept of qubits, the quantum equivalent of classical bits.
2. Qubit Notation: Learn how to notate qubits and their quantum states effectively.
3. Matrix Representation: Explore the matrix representation of qubits, including vector notation and the renowned Bloch sphere.
4. Single-Qubit Gates: Gain proficiency in using essential single-qubit gates, such as X gate, Hadamard gate, Y gate, Z gate, S gate, and T gate.
5. Gate Notations: Comprehend gate notations and matrix representations associated with various single-qubit gates.
6. Multiple Qubit Gates: Explore the world of multiple qubit gates, including the CNOT gate, CZ gate, Swap gate, and Toffoli gate.
7. Gate Operations: Understand the operations and applications of multiple qubit gates in quantum computing.
8. Entanglement: Delve into the groundbreaking concept of entanglement, a key feature that distinguishes quantum computing.
9. Bell's State: Learn about Bell's state, a fundamental quantum phenomenon.
10. Superdense Coding: Explore the intriguing concept of superdense coding, allowing the transmission of multiple classical bits using only a single qubit.
11. Practical Qiskit Exercises: Apply theoretical knowledge through practical exercises using Qiskit, a popular quantum computing framework.
12. Quantum Programming Skills: Develop the skills needed to begin programming quantum applications.

Contribution to Professional Growth:

- Quantum Fundamentals: Acquire a solid foundation in quantum computing principles and concepts.
- Programming Proficiency: Gain practical experience in programming quantum applications using Qiskit.
- Problem-Solving Skills: Develop problem-solving abilities relevant to quantum computing challenges.
- Quantum Literacy: Enhance your understanding of the unique properties and capabilities of quantum systems.
- Quantum Technology: Prepare for a career or role in quantum technology, quantum software development, or quantum algorithm design.
- Innovation Potential: Be ready to contribute to groundbreaking advancements in quantum computing.
- Interdisciplinary Skills: Bridge the gap between quantum physics, mathematics, and computer science.
- Research Opportunities: Lay the groundwork for participation in quantum computing research initiatives.
- Competitive Advantage: Stand out in the evolving quantum technology job market.

Suitability for Preparing Further Education:

- Quantum Specialization: Ideal for learners interested in pursuing specialized quantum computing programs or certifications.
- Advanced Quantum Studies: Acts as a stepping stone for individuals aspiring to delve deeper into advanced quantum computing coursework.
- Quantum Career Path: Suitable for those planning a future in quantum computing, whether in academia, industry, or research.
- Quantum Research: Provides a strong foundation for pursuing advanced studies or research in quantum computing.
- Quantum Programming Skills: Equips students with the skills necessary for further exploration of quantum software development.
- Cross-Disciplinary Learning: Relevant for learners aiming to bridge the gap between quantum theory, mathematics, and practical quantum computing.

Course Syllabus

Math prerequisites

Qubit

Quantum gates: Single quantum gates

Multiple Qubit

Multiple qubit gates

Coding: Qiskit

Application