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朱士維

以深入淺出的概念說明日常生活與科學應用中常見的光學現象,特色在於大量的範例以及實驗展示。

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What's inside

Syllabus

課程介紹
介紹課程內容、要求、修課動機
光學簡介
生活中的光學、光學歷史、光的本質
Read more
光與物質的交互作用
反射、折射、散射、吸收、放光
幾何光學
用數學描述光、透鏡、鏡子(ABCD矩陣)、光束追蹤法
眼睛的光學
眼睛的光學奧秘
其他成像系統
照相機、望遠鏡、顯微鏡
光學像差
幾何像差簡介
期末考

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
探討日常生活中常見的光學現象,有助於深化對光學的理解。
課程提供大量的實例和實驗展示,提供具體案例以協助理解。
涵蓋光學的基礎知識,適合初學者入門或基礎複習。
課程教授幾何光學、眼睛光學等主題,適用於物理、光學相關領域的學習。
介紹光與物質的交互作用,加深對光學原理的認識。
需要具備基本物理學背景,對光學有興趣或相關領域從業人員。

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Save 基礎光學一 (Introduction to Optics (1)) to your list so you can find it easily later:
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Reviews summary

光学入门,通俗易懂

这门基础光学课程以深入浅出的概念,通过大量的例子和实验展示,介绍了日常生活和科学应用中常见的光学现象。课程内容涵盖了光学简介、光与物质的相互作用、几何光学、眼睛的光学、其他成像系统和光学像差等方面。
例子丰富,易于理解。
"例子丰富,通俗易懂!"

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in 基礎光學一 (Introduction to Optics (1)) with these activities:
Solve practice problems on geometric optics
Solving practice problems on geometric optics will reinforce your understanding of the principles and equations involved.
Browse courses on Geometric Optics
Show steps
  • Gather practice problems from textbooks, online resources, or your instructor.
  • Set aside dedicated time to work on the problems.
  • Review the solutions to identify any areas where you need further clarification.
Attend a workshop on microscopy
Attending a workshop on microscopy will provide hands-on experience and practical insights into advanced optical techniques.
Browse courses on Microscopy
Show steps
  • Find and register for a reputable workshop on microscopy.
  • Prepare for the workshop by reviewing the basics of microscopy.
  • Actively participate in the workshop, asking questions and taking notes.
  • Practice the techniques demonstrated in the workshop.
Create a comprehensive study guide
Compiling a comprehensive study guide will help you organize and consolidate your learning materials, making it easier to prepare for assessments.
Show steps
  • Gather all relevant notes, assignments, and resources.
  • Organize and outline the key concepts and topics covered in the course.
  • Summarize and synthesize the information into a concise and easy-to-understand format.
  • Add practice questions, exercises, or examples to reinforce your understanding.
Two other activities
Expand to see all activities and additional details
Show all five activities
Design an optical experiment to demonstrate a specific optical phenomenon
Designing and conducting an optical experiment will provide a deeper understanding of the underlying principles and allow you to apply your knowledge in a practical setting.
Show steps
  • Choose an optical phenomenon that you want to demonstrate.
  • Research and understand the theory behind the phenomenon.
  • Design an experiment that will effectively demonstrate the phenomenon.
  • Conduct the experiment carefully and collect data.
  • Analyze the data and draw conclusions about the phenomenon.
Build a simple optical instrument, such as a telescope or a microscope
Building an optical instrument will provide hands-on experience and a comprehensive understanding of the principles and components involved in optical systems.
Show steps
  • Choose an optical instrument that you want to build.
  • Research and understand the design and principles of the instrument.
  • Gather the necessary materials and components.
  • Assemble the instrument carefully, following the design.
  • Test and calibrate the instrument to ensure it is functioning properly.

Career center

Learners who complete 基礎光學一 (Introduction to Optics (1)) will develop knowledge and skills that may be useful to these careers:
Optical Engineer
Optical Engineers design and develop optical systems, including cameras, telescopes, and microscopes. This course will serve as a solid introduction to the principles of optics and help them design better optical systems.
Laser Engineer
Laser Engineers develop, design, and test lasers and other optical systems. Optics is fundamental to understanding how lasers and optical systems work. This course will help build a foundation for thinking about optics that can be applied to a career in laser engineering.
Photonics Engineer
Photonics Engineers use photons to develop new technologies, including lasers, fiber optics, and solar cells. This course will provide a strong foundation in the fundamentals of optics that will be essential for success in this field.
Imaging Scientist
Imaging Scientists develop and apply techniques for capturing and processing images. This course will provide a foundation in the principles of optics that will be essential for understanding how imaging systems work.
Optical Designer
Optical Designers design and develop optical components, such as lenses, mirrors, and prisms. This course will provide a solid foundation in the principles of optics that will be essential for success in this field.
Vision Scientist
Vision Scientists study the human visual system. This course will provide a foundation in the principles of optics that will be essential for understanding how the human eye works.
Optometrist
Optometrists diagnose and treat vision problems. This course will provide a foundation in the principles of optics that will be essential for understanding how the human eye works.
Ophthalmologist
Ophthalmologists are medical doctors who specialize in the diagnosis and treatment of eye diseases. This course will provide a foundation in the principles of optics that will be essential for understanding how the human eye works.
Microscopist
Microscopists use microscopes to study the structure and function of cells and tissues. This course will provide a foundation in the principles of optics that will be essential for understanding how microscopes work.
Astronomer
Astronomers study the stars, planets, and other objects in space. This course will provide a foundation in the principles of optics that will be essential for understanding how telescopes work.
Photographer
Photographers use cameras to capture images. This course will provide a foundation in the principles of optics that will be essential for understanding how cameras work.
Lighting Designer
Lighting Designers design and implement lighting systems for a variety of applications, including homes, offices, and public spaces. This course will provide a foundation in the principles of optics that will be essential for understanding how light interacts with different materials and surfaces.
Science Teacher
Science Teachers teach science to students at all levels. This course will provide a foundation in the principles of optics that will be essential for teaching students about light and optics.
Technical Writer
Technical Writers write technical documents, such as manuals, reports, and proposals. This course will provide a foundation in the principles of optics that will be essential for writing about optical systems and devices.
Science Writer
Science Writers write about science for the general public. This course will provide a foundation in the principles of optics that will be essential for writing about optical phenomena and technologies.

Reading list

We've selected 12 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in 基礎光學一 (Introduction to Optics (1)).
Provides a comprehensive overview of the fundamental principles of optics, including geometrical optics, wave optics, and physical optics.
這本書提供了光學的全面介紹,涵蓋從基礎概念到高等主題。對於那些尋求深入理解光學的人來說,這是一本很好的參考書。這本書可以作為本課程的補充教材,特別是對於那些想要了解更多光學基礎知識的學生。
Another widely used textbook for undergraduate optics courses, providing a comprehensive coverage of both geometrical and wave optics.
Covers the fundamental principles of quantum optics, with applications in fields such as quantum information processing and quantum computing.
Provides a rigorous treatment of geometrical optics, with a focus on the mathematical principles underlying the formation of images.
Covers the principles of geometrical optics and optical design, with a focus on the design of optical systems.
A journal that publishes peer-reviewed research papers on applied optics, with a focus on the development and application of optical technologies.
A journal that publishes peer-reviewed research papers on the application of optics in the life sciences, including microscopy, imaging, and spectroscopy.
A journal that publishes peer-reviewed research papers on all aspects of photonics, including optical materials, devices, and systems.

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