Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.
1. sound energy incident on a panel causes the panel to vibrate (especially at resonant and coincident frequencies). sound energy -> mechanical energy 2. sound energy passing through an absorber will dissipate as heat. sound energy -> thermal energy
The noun forms of the verb to dissipate are dissipation, dissipator (or dissipater), and the gerund, dissipating.
lower
No, but they dissipate it ... they get warm, andthe surrounding air carries heat away.
Frequency and distance are directly proportional the higher the frequency the more distance for the sound to dissipate th lower the frequency th shorter the distance for the sound to dissipate
Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.Energy is lost in any such process. Air resistance, resistance within the spring, even sound, can dissipate part of the energy.
Sound waves dissipate as they move through the atmosphere. How far sound waves travel or how fast these waves dissipate is dependent on but not limited to the initial magnitude of the source creating the propagation of sound waves. For example, throw a pebble into a body of water, the waves generated are similar to sound waves. these waves are small and dissipate rather quickly. Now throw a boulder into the water, these waves are much larger and take longer to dissipate as they move through the body of water. The reason you can not hear at long distances is due primarily to two factors. 1. the sound generator is too small or the listening devise (in this case your ear) is not sensitive enough or the sound wave has dissipated completely.
Sound travels through air much more quickly than a smell can dissipate. The sound is over almost as soon as it is produced.
No, the only thing required to make an object produce sound is to apply enough sudden force onto a minimally supported object, forcing it to dissipate that force all by itself. To do this the object vibrates, which produces sound.
1. sound energy incident on a panel causes the panel to vibrate (especially at resonant and coincident frequencies). sound energy -> mechanical energy 2. sound energy passing through an absorber will dissipate as heat. sound energy -> thermal energy
The clouds began to dissipate after the storm. He watched her anger dissipate into a profound sense of relief as the truth finally sank in.
Smoke will dissipate faster when there is a breeze blowing.
Sound waves diminish according to the environment they are in. An anechoic indoor space (one that absorbs sound) will dissipate sound much faster than one with highly reflective surfaces (such as a room with stone surfaces). It doesn't matter if you're inside or outside, it just depends on the objects that surround the sound source.
Dissipate means when you pull something apart or something is getting forced/pulled apart.
The noun forms of the verb to dissipate are dissipation, dissipator (or dissipater), and the gerund, dissipating.
to scatter