In that case, in a process known as "resonance", the object will tend to vibrate pretty strongly - possibly strong enough to break the object.
resonance
an erection im absolutely positive you people will get this right
medium
True.
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.
resonance
an erection im absolutely positive you people will get this right
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.
medium
density that is dependant on mass
RESONANCE
True.
Because all the objects have a natural frequency
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.
by vibrating at a frequency between 20-20 000 hertz. When objects vibrate they cause vibrations in air particles. The vibrations travel until the energy is dissipated or hits another object.
Which energy is caused by an object's vibrations?
The object tends to start oscillating. The longer the oscillations occur, the stronger they become. Eventually, the object might be destroyed. This is why soldiers are instructed to "break step" when marching over a bridge. Check the internet for "Galloping Gertie."