Biochemistry: Quantum Computing Methods
N.B. Singh
This audiobook is narrated by a digital voice.
"Biochemistry: Quantum Computing Methods" explores how quantum computing can revolutionize biochemistry, from molecular simulations to drug discovery. This book introduces quantum concepts and their practical applications, offering insights into the future of biotechnological innovation at the intersection of quantum technology and life sciences.
Duration - 2h 8m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "Biochemistry: Quantum Computing Methods" explores how quantum computing can revolutionize biochemistry, from molecular simulations to drug discovery. This book introduces quantum concepts and their practical applications, offering insights into the future of biotechnological innovation at the intersection of quantum technology and life sciences. Duration - 2h 8m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:47
Introduction to Quantum Computing
Duration:00:01:09
Overview of Quantum Computing
Duration:00:04:01
Quantum Bits and Quantum Gates
Duration:00:02:51
Quantum Superposition and Entanglement
Duration:00:02:23
Quantum Circuits
Duration:00:02:27
Quantum Algorithms
Duration:00:02:40
Applications of Quantum Computing
Duration:00:02:23
Principles of Biochemistry
Duration:00:01:18
Structure of Biomolecules
Duration:00:02:14
Enzyme Kinetics
Duration:00:02:42
Metabolic Pathways
Duration:00:02:37
Genetic Information Flow
Duration:00:02:36
Biochemical Techniques
Duration:00:02:44
Biomolecular Interactions
Duration:00:03:06
Quantum Algorithms for Molecular Modeling
Duration:00:01:27
Quantum Computational Chemistry
Duration:00:02:28
Variational Quantum Eigensolver (VQE)
Duration:00:04:34
Quantum Approximate Optimization Algorithm (QAOA)
Duration:00:02:22
Hybrid Quantum-Classical Algorithms
Duration:00:02:29
Applications in Molecular Modeling
Duration:00:02:41
Quantum Computing in Drug Design
Duration:00:01:22
Drug Discovery Process
Duration:00:02:31
Quantum Molecular Dynamics
Duration:00:02:19
Quantum Docking Simulations
Duration:00:02:22
Optimizing Drug-Target Interactions
Duration:00:02:34
Quantum Machine Learning for Drug Design
Duration:00:02:44
Case Studies in Quantum Drug Design
Duration:00:03:05
Quantum Simulations of Biomolecules
Duration:00:01:18
Introduction to Quantum Simulations
Duration:00:03:16
Quantum Simulation Techniques
Duration:00:03:13
Simulating Protein Folding
Duration:00:02:55
Quantum Effects in Enzyme Catalysis
Duration:00:02:34
Quantum Simulations of DNA/RNA
Duration:00:02:33
Challenges in Quantum Simulations
Duration:00:03:01
Quantum Machine Learning in Biochemistry
Duration:00:01:24
Introduction to Quantum Machine Learning
Duration:00:03:23
Quantum Neural Networks
Duration:00:03:01
Quantum Support Vector Machines
Duration:00:03:13
Quantum Data Encoding
Duration:00:03:04
Applications in Biochemical Data Analysis
Duration:00:03:16
Future Trends in Quantum Machine Learning
Duration:00:03:06
Future Perspectives in Quantum Biochemistry
Duration:00:01:28
Current State of Quantum Biochemistry
Duration:00:03:26
Technological Advancements
Duration:00:03:36
Potential Breakthroughs
Duration:00:04:10
Ethical Considerations
Duration:00:03:26
Collaborative Efforts in Quantum Biochemistry
Duration:00:03:45