Applications of Modern Physics in Technology
Learning Time: 5-15 hours
Content: Applications of modern physics in technology is a subject that examines the practical uses of fields such as quantum mechanics, relativity, and nuclear physics. This subject covers laser technologies, semiconductors, nuclear energy, medical imaging (MRI, PET), quantum computing, and space technologies. TYT focuses on fundamental applications, while AYT focuses on advanced technologies and ethical dimensions. The current 2025 curriculum also covers artificial intelligence integration and sustainable energy. Learning this topic forms the foundation for technology innovation.
- Laser Technologies:
- Working Principle of Laser
- Applications (Surgery, Cutting)
- Optical Communication
- Semiconductors and Electronics:
- Semiconductor Materials (Silicon)
- Transistors and Diodes
- Integrated Circuits
- Nuclear Technologies:
- Nuclear Power Plants
- Radiation Therapy
- Isotope Production
- Medical Imaging:
- MRI (Magnetic Resonance)
- PET (Positron Emission Tomography)
- Ultrasound and Radiography
- Quantum Technologies:
- Quantum Computing
- Quantum Cryptography
- Nanotechnology
- Space and Aviation:
- Space Telescopes (Hubble, James Webb)
- Gravitational Wave Detectors
- Satellite Technologies
- Affecting Factors:
- Technological Developments
- Cost and Access
- Ethical and Environmental Impacts
- Modern Developments:
- Integration with Artificial Intelligence
- Sustainable Energy Solutions
- Space Exploration Technologies
- Ethical and Social Dimension:
- Inequality of Access to Technology
- Nuclear Safety
- Environmentally Friendly Practices
Course Features
- Lectures 0
- Quizzes 0
- Duration 5 hours
- Skill level Expert
- Language English
- Students 15
- Assessments Yes
