Yes.
Yes, the resonant frequency is the same as the natural frequency.
No, the natural frequency and resonant frequency are not the same. The natural frequency is the frequency at which an object vibrates when disturbed, while the resonant frequency is the frequency at which an object vibrates most strongly when subjected to external forces.
The natural frequency of a system is the frequency at which it naturally vibrates when disturbed. The resonant frequency is the frequency at which the system vibrates with the greatest amplitude when subjected to an external force. The resonant frequency is usually close to the natural frequency, but not always the same.
When the resonant frequency matches the natural frequency of the system, it causes constructive interference that amplifies the vibrations in the system. This amplification results in a significant increase in the amplitude of the vibrations at that frequency, leading to resonance. If the frequencies are not matched, the system will not vibrate with as much intensity, and resonance will not occur.
No, the natural frequency and resonance frequency of a cantilever beam are not necessarily the same. The natural frequency is the frequency at which a system oscillates without any external forces, while the resonance frequency is the frequency at which a system is most responsive to external forces. In a cantilever beam, the resonance frequency is typically higher than the natural frequency.
For to keep the resonant frequancy constant L*C has to stay same. Lets say if you double L you have to divide C by 2 to keep the same resonant frequency. If only L increases Resonant frequency decrease, this is same for C.
The light is absorbed by the atom and excites the atom.
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.
Yes, resonance can occur between two objects with the same frequency when one object vibrates at the natural frequency of the other, causing it to vibrate with greater amplitude. This phenomenon is often seen in musical instruments when a string or air column vibrates at a specific frequency, creating a resonant sound.
Applying a force at the same rate as the natural frequency will cause resonance. If both the frequencies coincide with each other, they form a wave of double the amplitude. If the crest of one frequency and the trough of the other meet, they cancel out each other and the displacement is 0.
It is not so much the volume of the sound as the frequency as well. Sound at the wrong frequency can be played as loud as you like and it will not break the glass. The sound needs to be the same frequency as the resonant frequency of the glass (tap the glass, that note is it's resonant frequency). Once the resonant frequency has been found, it does not take much volume at all, even humans can do it, albeit trained singers (see Mythbusters).
Same meaning as relevant