Electromagnetic Waves: Principles and Applications

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VPACHKAWADE Research Center

1:09:58

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1. Introduction.mp4

00:15

2. Electromagentic waves.mp4

03:30

3. Electromagnetic spectrum.mp4

07:29

4. Electromagnetic spectrum.mp4

05:26

5. frequency, wavelength and energy.mp4

06:08

6. How EM waves are produced.mp4

04:13

7. How EM waves are produced.mp4

05:28

8. Electromagnetic waves applications.mp4

05:29

9. How to generate electric and magnetic field.mp4

11:36

10. Example.mp4

07:19

11. EM wave energy.mp4

09:12

12. Example.mp4

03:53

Description

A Comprehensive Guide to Understanding and Applying Electromagnetic Waves in Science, Engineering, and Technology

What You'll Learn?

The properties and characteristics of electromagnetic waves.
The electromagnetic spectrum and the different regions within it.
Maxwell's equations and their significance in describing the behavior of electric and magnetic fields.
The relationship between electric charges, currents, and electromagnetic waves.
The applications of electromagnetic waves in various fields, such as communication, imaging, and medicine.
Critical thinking and problem-solving skills in analyzing and applying electromagnetic wave concepts.

Who is this for?

Students of Physics or Engineering

Science and Engineering Professionals

Communication and Electronics Engineers

Researchers and Academics

Science Educators

Enthusiasts and Lifelong Learners

What You Need to Know?

Familiarity with basic physics concepts, including mechanics, electricity and magnetism, and waves.

Understanding of electric charge, electric fields, magnetic fields, and basic wave properties.

Ability to apply mathematical concepts to physical problems.

Interest in understanding the principles and applications of electromagnetic waves.

More details

Description
Update: New contant added on 03-08-2023
Course Description: Welcome to "Electromagnetic Waves: Principles, Applications, and Maxwell's Equations." This comprehensive course is designed to provide you with a deep understanding of electromagnetic waves, their underlying principles, practical applications, and the fundamental equations that govern their behavior.
Through a combination of theory, examples, and practical applications, you will explore the fascinating world of electromagnetic waves. Starting with an introduction to the electromagnetic spectrum, you will delve into the properties of different types of electromagnetic waves, their wavelengths, frequencies, and the practical applications associated with each region. We also understand through examples the concepts of energy, intensity, and power of an electromagneitc waves.
Building upon this foundation, you will dive into the principles of electromagnetism, including the production of electric and magnetic fields, and how these fields interact to generate electromagnetic waves. You will gain insights into the behavior of electric charges, the relationship between current and magnetic fields, and the concept of electromagnetic induction.
One of the key highlights of this course is a detailed exploration of Maxwell's equations, which form the backbone of classical electromagnetism. You will examine each equation in both its differential and integral form, thoroughly understanding their physical interpretations and the relationships they establish between electric and magnetic fields, charges, and currents.
With a comprehensive understanding of Maxwell's equations, you will analyze how electromagnetic waves are produced, how they travel through space, and their remarkable speed and propagation characteristics. You will uncover the principles behind the interaction of electromagnetic waves with matter, including absorption, reflection, and transmission, providing a solid foundation for applications in communication, imaging, and other fields.
Throughout the course, you will encounter numerous real-world examples and applications, such as wireless communication systems, medical imaging technologies, and remote sensing applications. These practical illustrations will reinforce your understanding of electromagnetic waves and their significance in various scientific, engineering, and technological domains.
By the end of this course, you will possess a mastery of electromagnetic waves, equipped with the knowledge to apply electromagnetic principles, analyze the behavior of electromagnetic fields, and comprehend the production and propagation of electromagnetic waves. You will also have a comprehensive understanding of Maxwell's equations and their role in describing and predicting the behavior of electric and magnetic fields.
Embark on this captivating journey into the world of electromagnetic waves and unlock a deeper understanding of this fundamental phenomenon that surrounds us every day. Join us in "Mastering Electromagnetic Waves: Principles, Applications, and Maxwell's Equations" and expand your knowledge and expertise in this captivating field.
Who this course is for:
Students of Physics or Engineering
Science and Engineering Professionals
Communication and Electronics Engineers
Researchers and Academics
Science Educators
Enthusiasts and Lifelong Learners

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About: We are a registered entity focused on Science & Engineering and Technology. Our expertise is Microelectronics and Nanotechnology. Our core activities include knowledge transfer, cutting-edge research, IP development, and education for the next generation of engineering and technology leaders. Our collaborative and close-knit center is committed in innovating, pushing boundaries, building sustainable products, and creating an environment that fosters knowledge advancement and addresses critical challenges of the 21st century.Through our projects, we strive to improve quality of life and learning, welcoming individuals from diverse backgrounds and offering growth opportunities to our staff and trainees. Our center is at the forefront of STEM innovation and aims to lead in Science, Technology, Engineering, and Mathematics.Vision: To become a world-class global center of excellence in science, engineering, and technology, with a strong focus on driving socio-techno-economic development.Mission: Our mission is to facilitate knowledge transfer, provide technology know-how, conduct cutting-edge research and development, generate intellectual property (IP), offer consulting services, engage in volume manufacturing, drive product development, and provide education and training in our field of expertise.To know more, click the link to visit our website.Our courses are taught by our Director Dr. Vinayak Pachkawade. Dr. Vinayak Pachkawade is a highly accomplished professional with a diverse range of expertise in the field of electrical engineering and interdisciplinary areas. Here are some key highlights of his profile:Founder and Director at VPACHKAWADE Research CenterTopical Advisory Panel for Sensors at MDPITPC chair (Associate) for the Micro and Nanotechnology Track at IEEE I2MTCSenior Member of IEEE and Member of IEEE IMSPh.D. degree from the University of Liege, BelgiumSpecializes in the development of precise sensors and circuits, as well as state-of-the-art micro-nano fabricationPrimary areas of work include ultra-precise integrated sensors and sensing systems, IoT, smart systems for healthcare, and environmental monitoringExperienced speaker at international conferences and the University of Siegen, Germany (2020-21)Reviewer for prestigious journals such as IEEE, Elsevier, and MDPI, and for IEEE conferencesContributor to book chapters on MEMS biosensorsRecipient of the Best Paper Award (1st Prize) at IEEE Sensors, Taiwan (2012)Served as an Expert Proposal Reviewer for the Ontario Research Grant, Canada (2014)Dr. Pachkawade has gained extensive experience through his work at renowned institutions like the University of Liege, Belgium, National Tsing Hua University (NTHU), and National Chiao Tung University (NCTU), Taiwan. His contributions in IC design and nanotechnology (MEMS) have led to numerous peer-reviewed publications, awards, honors, and recognitions, establishing him as a highly qualified and accomplished engineer and researcher.

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