resonance
resonance
resonance
they are asorbed.
This process that determines an object's response to vibrations by varying the frequencies of the electromagnetic (em radiation) energy that it simultaneously reflects and absorbs, in response to its natural harmonies , is called Resonance. Input vibrations, by being either absorbed and cancelled, or reflected and boosting, affect energy response at the substance's natural frequencies, and may be either squelched or amplified depending upon the incident vibrations.
Sound is created by the vibration of air. The faster the vibration, the higher the sound. Smaller objects can vibrate faster than larger objects (of the same kind) and therefore have a higher pitched sound.
RESONANCE
resonance
resonance
they are absorbed
they are asorbed.
the two equally parts vibrate at the same frequency.
Thinner
Absolutely not! Glass, for example (every wine glass has a different natural frequency), can be broken by a frequency that matches its own but nearby objects aren't affected by the same frequency.
The some wave has the same frequency as the natural frequency of the tuning fork, the tuning fork is made to vibrate due to a process called resonance.
This process that determines an object's response to vibrations by varying the frequencies of the electromagnetic (em radiation) energy that it simultaneously reflects and absorbs, in response to its natural harmonies , is called Resonance. Input vibrations, by being either absorbed and cancelled, or reflected and boosting, affect energy response at the substance's natural frequencies, and may be either squelched or amplified depending upon the incident vibrations.
coherent waves are waves of the same frequency (same wavelength) and constant phase difference.
because and not round which would cause the wind to go around the object