you need a inline filter. with out the filter it sounds like a buzzing or whisteling caused from alternator charge.
The question is incomplete. If the radio is moving along with the listener then listening is possible. If the radio is at rest then the listener cannot hear the sound vibrations given out by that radio.
The carrier wave carries the information that you hear. It is modulated by the sound which varies its amplitude or frequency. Without the carrier there would be nothing to vary so you would hear nothing.
You should be able to get sound from the radio. Mine is set on channel 89.5 FM. When the DVD player first turns it should say on the monitor.
Electrical to sound.
There are a few websites where you can download the Google radio from free of charge, however the most popular would be Google itself. This radio player is free to download and listen to and has all the current music and chat that you would hear on the normal radio.
Sound travels at the speed of sound, whereas radio waves travel at the speed of light. The speed of radio waves is much faster than the speed of sound. If you're seated high in the stands at a baseball game, watching it on the field and listening to the game on the radio at the same time, it's quite common to hear the crack of the bat on the radio before you hear it straight from Home Plate.
First of all; that is the coolest question of all time. second of all; I guess not.... The only way you are going to be traveling at the speed of sound is inside an enclosed airplane (even in free-fall, as a parachutist, you would not travel that fast) and therefore you would be able to hear your radio - which is a good thing, since you might be getting directions from air-traffic control, by radio. However, if you are Superman, flying through the air under your own power at the speed of sound, you wouldn't hear a radio that plays through an external speaker, but you would be clever enough to use ear-plugs, thereby once again circumventing the problem of moving through the air so quickly that sound can't keep up with you.
You would hear the intermittent sound of the gas jet used to reheat the air in the balloon.
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.
Bad bearings in an alternator would make a grinding or roaring sound. If a Diode Plate is failing you might hear a buzzing sound in the radio that changes pitch with the speed of the engine.
The last sound you would hear in the last syllable of "timorous" is "us."
If it was you wearing a space suit and hitting the bars together, you could hear it, but not very loudly. If it was someone else hitting the bars together, then you couldn't hear it (if your and/or their radio was off). Sound is mechanical energy. The bars would generate mechanical energy if struck together, and that energy would be radiated through anything touching them. But space, because it is a vacuum, would not carry the sound. There would be no medium to transport it. The mechanical energy of sound, like that of a wave on water, is transferred into the medium in which it is to be carried. Sound is "put into" air so it can travel and we can hear it. Sound cannot be heard in space in the "normal" way we hear things here on earth.