The loudness of the sound relates to the amplitude of the wave. The sound has energy due to the moving particles of air through which it travels.
It a bouncing sound
electromagnetic wave is not a sound wave
The less dense areas created as a sound wave propagates are called rarefactions.
An ultrasonic wave is not an electromagnetic wave; it is a sound wave.An ultrasonic wave is not an electromagnetic wave; it is a sound wave.An ultrasonic wave is not an electromagnetic wave; it is a sound wave.An ultrasonic wave is not an electromagnetic wave; it is a sound wave.
Because the amplitude is what decides how much energy there is in the wave. Large amplitude = lots of energy. And lots of energy hitting something(like your ear) is more likely to do damage than a little energy hitting something.
For a sound wave to be created there has to be a vibration
Sound Wave - Stanley Huang album - was created on 2003-11-28.
It a bouncing sound
A sound wave that has a large amplitude carries a lot of energy because the higher the waves amplitude the louder (more powerful or energetic) the wave will be. apex answer: high amplitude
a wave although you cannot photograph a sound wave. you can photograph the affects of a sound wave. if you put an extremely large amp and subwoofer near a pond; you sould witness ripples in the water. this is sound at work! it would appear as very small waves.
A sound wave ... Although if the tree falls in the forest and no one is there to hear it does it make a sound? :))
No, a sound wave is a compressional wave.
A sound wave with a larger amplitude also carries more power.
Wave length's are one of the most fundamental subjects in physics effecting sound, light and water for example. Learning how the wave length was created allows one to learn much about sound and light.
sound wave cannot produce magnetic field because magnetic field is created due to flow of electric currents sound is a mechanical wave, sound is produced due to vibration in a medium so sound wave cannot create electric current or magnetic field
Sound is always created an projected by some sort of vibration. The satellite must have some sort of vibrating unit which is at the frequency of 20Hz - 20,000 Hz (the wave vibration we define as sound). However there is a problem, up in space there is limited particles in which the wave can travel through so unless the vibration is created so that the amplitude of the sound wave is extremely high (I'm talking astronomically large) we would never hear the sound Hope that helps - bwabwa
The less dense areas created as a sound wave propagates are called rarefactions.