There is no evidence that "the government" (whoever that is) has ever
implanted an RFID tag in anyone.
The human frequency is different that that of a normal AM/FM radio. The closet we have gotten to this would refer to an idea known as "Wetware." The cybernetic augmentation of humans. Perhaps someday, scientists will achieve this but most likely not in the near future.
We can hear almost all amplitudes(except very small amplitudes). Amplitude determines the intensity(i.e., loudness) of sound wave. Intensity is proportional to Amplitude squared. So there is no upper limit for amplitude. But very loud sound(high amplitude wave) can be harmful for ears. Actually there is a frequency range(20Hz to 20kHz) that we can hear.
Humans are omnivores and are considered to be apex consumers.
Hi , In Frequency No, for you can have sound and radio waves of similar frequencies. The difference is that radio is electromagnetic whereas sound is a mechanical compression wave.
Sound waves - which humans and other animals hear through their ears - are actually caused by wave-like variations in pressure travelling through air and other physical media, for example water, wooden doors and floors, etc.Sound travels faster in a less dense medium than it can travel in a more dense medium. The exact speed at which a sound wave travels through a given medium depends on the pressure and temperature of the medium, and therefore on its density.Sound itself is not an electromagnetic (EM) wave but EM waves such as radio signals - and infra-red and visible light transmissions - can fairly easily be "modulated" to carry sound waves as "data". The signals and can then be transmitted through space, air or water.After such signals have been have been received and "demodulated" at radio, infra-red or visible light receivers, the sound can then be heard.Another answerConsidering radio waves, frequencies similar to audible sound are located in the VLF [very low frequency] Radio Band 4 [3 to 30kc/s], known as the myriametric subdivision.The propogation velocity of any radio wave though empty space is 186,282 miles per second, approximately 984 million feet per second. So the wavelength, measured in feet, of a given frequency is approx 984,000 divided by the frequency in kilocycles per second (kHz) or 984 divided by the frequency in megacycles per second (MHz).The propogation velocity of any radio wave through empty space is 300,000,000 meters per second (three hundred million meters per second) so the wavelength, measured in meters, of a given frequency is 300,000 divided by the frequency in kilocycles per second (kHz) OR 300 divided by the frequency in megacycles per second (MHz).Amplitude, which is the signal strength, does not enter into the calculation.
Assuming you mean the lowest frequency humans can hear, that's about 20 Hz.
Humans can hear sounds of 20 to 20,000 Hz. Hearing is best in the middle part of this range. However, the acuity varies between individuals and changes with age so that there is no specific frequency at which humans hear best.
Dead fish.
the range of sound frequencies that humans can hear is about0to200Hz
Yes
20 Hz.
3.15 khz
If it is at a high enough frequency, yes.
Ultrasound
Well I was told that scientists can implant wings onto peoples backs but I can't know for sure ... Also if they can they haven't tried it on humans yet ....
the early humans had established with a government because the namads had told the early humans to establishe with a government
An ultrasonic wave is a sound pressure wave that has a very high frequency. The frequency is higher that what humans can hear.