Physics is the fundamental science on how nature works, and based on these understandings, technological breakthroughs that may benefit human society can be achieved. In fact, much of modern technology and its advances owe its existence to application of fundamental physical principles. Its scope of study also overlaps with many other scientific and engineering disciplines such as biomedical science and engineering, environmental science, materials science, electronics, mechanical and manufacturing engineering.
Aims and Features
Our program provides students with comprehensive knowledge and a thorough understanding of physics principles and phenomena and their applications. The undergraduate curriculum covers topics in fundamental physics including classical mechanics, electromagnetism, quantum physics, thermodynamics, mathematical and experimental methods, and computational physics. Building upon a solid background in fundamental physics, students are introduced to various physics-related special topics such as financial engineering, soft matter and biophysics, medical physics, optics, and materials science / solid-state physics. In the final year of their study, students are required to work independently on a project in a selected area. These projects are designed to help students integrate their knowledge to solve challenging problems. Projects may be carried out in conjunction with industries or government agencies, thus facilitating their job seeking upon graduation.
- Click to read "物理學課程理論與實踐並重 涵蓋人工智能及金融元素" [Ming Pao] 2024-10-29
- Click to read "突破傳統出路 運用物理學模型預測市場走勢 投身金融業" [Ming Pao] 2023-10-31
- Click to read "CityU physics: undergraduate students prioritize connection and collaboration" [Physics World] 2021-10-21
