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Human eyes detect these orange “sea goldie” fish swimming over a coral reef in the blue waters of the Gulf of Eilat (Red Sea) using visible light. (credit: Daviddarom, Wikimedia Commons)
A photo showing many orange and pale blue colored fish, swimming over a coral reef in the blue waters of the Gulf of Eilat.
The beauty of a coral reef, the warm radiance of sunshine, the sting of sunburn, the X-ray revealing a broken bone, even microwave popcorn—all are brought to us by electromagnetic waves. The list of the various types of electromagnetic waves, ranging from radio transmission waves to nuclear gamma-ray (\gamma-ray) emissions, is interesting in itself.
Even more intriguing is that all of these widely varied phenomena are different manifestations of the same thing—electromagnetic waves. (See [link].) What are electromagnetic waves? How are they created, and how do they travel? How can we understand and organize their widely varying properties? What is their relationship to electric and magnetic effects? These and other questions will be explored.
Misconception Alert: Sound Waves vs. Radio Waves
Many people confuse sound waves with radio waves, one type of electromagnetic (EM) wave. However, sound and radio waves are completely different phenomena. Sound creates pressure variations (waves) in matter, such as air or water, or your eardrum. Conversely, radio waves are electromagnetic waves, like visible light, infrared, ultraviolet, X-rays, and gamma rays. EM waves don’t need a medium in which to propagate; they can travel through a vacuum, such as outer space.
A radio works because sound waves played by the D.J. at the radio station are converted into electromagnetic waves, then encoded and transmitted in the radio-frequency range. The radio in your car receives the radio waves, decodes the information, and uses a speaker to change it back into a sound wave, bringing sweet music to your ears.
Discovering a New Phenomenon
It is worth noting at the outset that the general phenomenon of electromagnetic waves was predicted by theory before it was realized that light is a form of electromagnetic wave. The prediction was made by James Clerk Maxwell in the mid-19th century when he formulated a single theory combining all the electric and magnetic effects known by scientists at that time. “Electromagnetic waves” was the name he gave to the phenomena his theory predicted.
Such a theoretical prediction followed by experimental verification is an indication of the power of science in general, and physics in particular. The underlying connections and unity of physics allow certain great minds to solve puzzles without having all the pieces. The prediction of electromagnetic waves is one of the most spectacular examples of this power. Certain others, such as the prediction of antimatter, will be discussed in later modules.
The electromagnetic waves sent and received by this 50-foot radar dish antenna at Kennedy Space Center in Florida are not visible, but help track expendable launch vehicles with high-definition imagery. The first use of this C-band radar dish was for the launch of the Atlas V rocket sending the New Horizons probe toward Pluto. (credit: NASA)
The large, round dish antenna looking like a giant white saucer is shown. It rests on a pillar shaped structure with a moveable tracking system that allows it to point towards a target object, send out electromagnetic waves, and collect any signals that bounce back from the target object.

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FAQs on Introduction to Electromagnetic Waves - Basic Physics for IIT JAM

1. What are electromagnetic waves?
Ans. Electromagnetic waves are a type of wave that consists of oscillating electric and magnetic fields. These waves are produced by the acceleration of charged particles and can travel through vacuum or various mediums, including air, water, and solids.
2. How do electromagnetic waves propagate?
Ans. Electromagnetic waves propagate through space by the interaction between the changing electric and magnetic fields. This propagation occurs perpendicular to each other and to the direction of the wave's motion. The wave energy is transferred from one point to another without the need for a medium.
3. What is the relationship between frequency and wavelength of electromagnetic waves?
Ans. The frequency and wavelength of electromagnetic waves are inversely proportional to each other. This means that as the frequency increases, the wavelength decreases, and vice versa. This relationship can be expressed mathematically as c = λν, where c is the speed of light, λ is the wavelength, and ν is the frequency.
4. How are electromagnetic waves classified?
Ans. Electromagnetic waves are classified based on their wavelength or frequency. The electromagnetic spectrum encompasses a wide range of waves, from radio waves with long wavelengths and low frequencies to gamma rays with short wavelengths and high frequencies. The spectrum includes radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays.
5. How are electromagnetic waves used in everyday life?
Ans. Electromagnetic waves have numerous practical applications in our everyday lives. Some common examples include the use of radio waves for communication, microwaves for cooking food, infrared waves for remote controls and thermal imaging, visible light for vision, ultraviolet waves for sterilization and fluorescent lighting, X-rays for medical imaging, and gamma rays for cancer treatment.
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