The discussion centers around the effectiveness and limitations of Faraday cages in shielding against electromagnetic fields. Participants explore various scenarios where Faraday cages may or may not provide adequate protection, including the influence of external electric fields, the impact of power cords, and the implications of frequency on shielding effectiveness.
Participants express a range of views on the effectiveness of Faraday cages, with some agreeing on the basic principles of shielding while others highlight specific conditions and limitations that may lead to penetration. The discussion remains unresolved regarding the practical applications and design considerations for effective shielding.
Limitations include the dependence on the specific design of the Faraday cage, the nature of the external fields, and the frequency of the electromagnetic waves involved. The discussion also touches on the practical challenges of implementing effective shielding in real-world scenarios.
yoyopizza said:I was wondering how protective a Faraday Cage actually is, can it be overcome by sending more amperage onto the exterior or does that not matter? Also what would cause a Faraday cage to be ineffective, like would a cord powering the device inside render the cage useless? Thanks for your help!
yoyopizza said:Wait, so it can or cannot penetrate the shield, you described it as shielding perfectly and also being able to penetrate. How could it penetrate? What do you mean by "outside electric fields change fast enough" and by the power cord radiates? (im very new to this and do not understand most technical jargon, so please explain your answer so the laymen like me can understand you) :) thanks!
yoyopizza said:Wait, so it can or cannot penetrate the shield, you described it as shielding perfectly and also being able to penetrate. How could it penetrate? What do you mean by "outside electric fields change fast enough" and by the power cord radiates? (im very new to this and do not understand most technical jargon, so please explain your answer so the laymen like me can understand you) :) thanks!
berkeman said:http://ramseytest.com/index.php
berkeman said:I think the lower attenuation at higher freqencies for those enclosures is because of the seams and apertures. For an ideal Faraday cage, I don't think there would be a change in attenuation versus frequency. But an ideal Faraday cage is not a practical thing -- who can use something with nothing going into or out of it?
yoyopizza said:So, I read that an airplane acts as a Faraday Cage and protects passengers form lightning strikes, but if that is true how do airplanes receive cell signal and WiFi?
yoyopizza said:So what could be done to strengthen a Faraday Cage? What makes it more resistant to high frequency waves?
Also, is there anything that would be different in designing a shield for electromagnetic pulses vs radio waves?
yoyopizza said:Why is it the wavelength of the wave that determines whether or not it can penetrate a Faraday Cage, instead of the amplitude?
berkeman said:Via external antennas.
Interesting. I haven't flown for a while, but I thought I remembered cell phones working once at altitude. I could be wrong though.CWatters said:Mobiles are still banned on most aircraft so unlikely they would provide an external antenna.
While on the ground that would probably be true. Once in the air, the antenna patterns of the cell towers would not cover airplanes.I believe the windows are big enough to prevent the aircraft being a faraday cage at mobile phone frequencies.
berkeman said:While on the ground that would probably be true. Once in the air, the antenna patterns of the cell towers would not cover airplanes.
yoyopizza said:If that is true then how do I get cell signal on airplanes? And some airplanes do provide WiFi.