Any object in absence of external force vibrates with it's natural frequency. When the frequency of the external forced vibration matches the object's natural frequency, we say that resonance has occurred. In this situation the amplitude of the object's oscillation becomes larger. How much larger depends on the amplitude of the forced vibration.
When vibrations match an object's natural frequency, resonance occurs. This causes the object to absorb more energy and vibrate with a higher amplitude. In some cases, resonance can lead to structural failures or damage to the object.
What happens is you need to go find a dictionary.
Resonance occurs.
resonance
RESONANCE
Resonance.
Resonance
Resonance
When vibrations travel through an object's natural frequency, resonance occurs. This causes the amplitude of the vibrations to increase, potentially leading to structural damage or failure if it exceeds the object's capacity to withstand stress. Resonance can also be harnessed in beneficial ways, such as in musical instruments that produce clear and loud sound.
resonance
The number of vibrations a wave goes through in a given time is called the frequency of the wave. Frequency is measured in hertz (Hz), which represents the number of vibrations per second.
vibrations transmitted through an elastic solid liquid or gas or a transmitted vibrations of any frequency
Sound travels through solid objects via vibrations. When an object is struck or a sound is produced, it causes the particles in the solid to vibrate, transmitting the sound energy as a wave through the material. The speed of sound in a solid is determined by the material's density and elasticity.
resonance
an erection im absolutely positive you people will get this right
vibrations transmitted through an elastic solid liquid or gas or a transmitted vibrations of any frequency
crocodiles communicated through extremely low frequency vibrations of muscles on their backs, only visible through the vibrations of water around them
Vibrations are transferred from one to the other through the air. If the two have the same frequency (or a very similar frequency), resonance will occur.
Sound travels through solid objects via vibrations. When an object is struck or a sound is produced, it causes the particles in the solid to vibrate, transmitting the sound energy as a wave through the material. The speed of sound in a solid is determined by the material's density and elasticity.
All sources of noise are natural. Noise is otherwise defined as soundwaves, which vibrate through matter until they reach your eardrums and the energy used to cause the vibrations is translated into noise by your brain -the pitch is determined by the frequency of the vibrations-. Anyway, it does not matter how the soundwaves are created, it is all natural. You cannot create synthetic noises as far as the physics are concerned.
The definition of sound is : "Vibrations that travel through the air or another medium and can be heard when they reach a person's or animal's ear." Sound can be measured by amplitude (loudness) and pitch (The frequency of the vibrations). Therefore sound does not affect frequency but frequency affects the pitch of the sound.
In that case, in a process known as "resonance", the object will tend to vibrate pretty strongly - possibly strong enough to break the object.
Glass can be broken using sound through a principle called resonance. By creating a high-intensity sound wave at a frequency that matches the natural frequency of the glass, the vibrations from the sound wave can cause the glass to shatter. This is a highly specialized and controlled process typically not done in everyday settings.
Sound waves are the sound. The waves cause vibrations in the objects that they collide with, and then the vibrated objects create more waves with their vibrations. An example of this would be listening to someone on the other side of a door.
Sound can travel through solids, liquids, and gases. In solids, sound travels the fastest due to the close arrangement of particles. In liquids, sound travels at a medium speed, while in gases, it travels slower as the particles are more spread out.