Nishanth 11th Grade San Ramon, CA

The Burj Khalifa (Downtown Dubai, UAE)

By Freddie Ardley Photography

Check out Freddie’s: Instagram Facebook Website

AM & FM: How Radio Works 

Lately I’ve been thinking about how the things I use every day actually work, and since I listen to a lot of podcasts, you can guess where this post is going: radio. 

In a studio, a microphone converts sound waves from a person’s voice into an electronic audio signal. If this was sent out by itself, it would only travel a few metres in air before it faded out. To get radio waves to travel long kilometres to a receiver, we have to combine it with a “carrier wave”—an electromagnetic wave. 

Electromagnetic waves are made up of oscillating electric and magnetic fields, just like visible light, but radio waves are right down on the lower end of the spectrum, so their wavelengths are very long—around 300 metres. 

(Image Credit: NASA)

Sound information is combined with the wave by altering or modulating the wave’s properties, like changing its amplitude, frequency, or phase. There are two ways to combine the audio signal with the carrier wave: amplitude modulation (AM) or frequency modulation (FM). 

AM radio changes the overall amplitude or strength of the wave, varying its height in order to incorporate the sound information. FM radio works a little differently, because it changes the frequency of the wave rather than the amplitude. The frequency is the number of wavelengths that pass by a given point per second—physically, a high frequency wave would look squashed up, and a low frequency wave would look stretched out. 

(Image Credit: Wikimedia Commons)

Both kinds of waves are susceptible to variations in amplitude as they zoom off through the air, but since FM radio relies on changes in frequency rather than amplitude, these variations don’t matter—they can just be ignored, and so the sound quality is usually super clear. But AM radio relies on the amplitude to convey information, so when the amplitude is varied a bit, this results in interference or static, which will be a familiar idea if you’ve ever listened to AM radio on a rural country road. The upside of AM radio is that it travels much further than FM radio, which is probably why you’re listening to it on that rural country road in the first place. 

So once these radio waves—whether AM or FM—hit a radio receiver, their oscillating fields induce a current in the conductor. The sound information encoded into the waves can be extracted, and converted back to sound waves to grace your ears with your favourite music or talk show. 

(Bonus: if you want to use science to learn more cool science, my fave podcasts are Radiolab, the Infinite Monkey Cage, and Big Picture Science.)

Technology has altered our social and political world… 

A photo tour of the coldest town on Earth.

In just over a week I will be embarking on my most ambitious project since visiting Mount Everest and the fabled Himalayas. Until March I will be exploring the mountains, deserts, seas and cities of the United Arab Emirates. 

It will be a return to photographing the globe and a focus on the geography and culture that resides on the shores of the Persian Gulf. I will be regularly blogging about the country and at the end will have select pieces going into a very exciting exhibition in London that I am apart of. 

Stay tuned for all the Arabian peninsula has to offer, I can’t wait to be back in a desert! 

Freddie Ardley Photography

Check out Freddie’s: Instagram Facebook Website

Photo of the Day, A Beautiful image of a foot of a mountain with fog and some trees. 

Image credit goes to original author. 

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