Not much, but interestingly enough, the reverse has been used on aircraft carriers.
When the fighter is approaching the carrier to land, the carrier will be sailing forwards reasonably fast. The airflow over the deck of the carrier will descend sharply just behind the flight deck, and the fighter will be pressed down by this airflow - which could lead to the approach being too low.
The carrier can emit a series of high volume audio chirps at a few kilohertz, and this compression wave will alter the density of the air behind the carrier. This slight difference in air pressure can be detected by radar, thus the actual airflow may be seen. This info is then embedded in the data fed to the pilot as he approaches the landing zone.
Earphones have coils of copper wire inside them. When music plays through the headphone jack, the current flows through the coils of wire, and that (like a magnet) makes the headphone speaker cone move in and out which moves air. That moving air is the sound you hear.
Very very minutely, but essentially no. They could create compressions in the conductive medium and very slightly change the resistance, but essentially no.
Sound waves
They can't. Radio waves are used to transmit information about earthquakes and tsunamis, but cannot affect the events themselves.
"Sound waves" is the only item on that list that is not a form of electromagnetic radiation, so no form of 'telescope' works for sound.
because sound waves are not a electromagnetic waves because they need a medium for travel....hence electromagnetic spectrum is based on the electromagnetic waves ..like radio waves , micro waves , etc....
The frequency of all electrical waves is measured in cycles per second or Hertz, sound waves or audio is the lower range of the spectrum from one Hz to about ten Kilo Hz where the frequency is to high for human or animal hearing that is where radio waves or radio frequency start up to many Giga Hz where the different light frequencies start like white light, infra red, ultra violet and X-ray ETC.
Radio and light waves are electromagnetic waves, sound waves are not.
sound waves
The sound waves affect their sence of directions.
False. Radio waves are electromagnetic vibrations, while sound waves are mechanical vibrations.
sound waves
by the sound waves
When you listen to the radio, you are hearing sound, which has no resemblance to light, radio waves, or x-rays. However, the sounds you hear are created in the radio receiver, using information that was carried to your location by means of radio waves.
radio astronomy
radio astronomy
because sound waves spread out, intensity decreases with distance from the source.
Sound waves
No. Radio/television waves do not affect the temperature, but usage of radios and televisions definitely does.