the sound waves reflect back
When sound waves encounter a barrier, they can be absorbed, reflected, transmitted, or diffracted.
When an object exceeds the speed of sound, it creates a sonic boom, which is a loud noise caused by the shock waves produced as it breaks the sound barrier.
When waves pass through a narrow gap, be they light or sound, they diffract. This creates an interference pattern of some sort, often depending on the wavelength of the sound and the size of the gap.
Diffraction occurs when waves encounter an obstacle or opening, causing them to bend around the edges of the barrier. This bending of waves leads to interference patterns being created, resulting in the spreading out of the wave pattern. This phenomenon can be observed with various types of waves, such as sound, light, and water waves.
When electrons transfer so quickly that they break the sound barrier, it results in a phenomenon known as a "sonic boom." This is a loud noise caused by the shock waves created by the rapid movement of the electrons, exceeding the speed of sound in the surrounding medium.
When sound waves encounter a barrier, they can be absorbed, reflected, transmitted, or diffracted.
When an object exceeds the speed of sound, it creates a sonic boom, which is a loud noise caused by the shock waves produced as it breaks the sound barrier.
When waves pass through a narrow gap, be they light or sound, they diffract. This creates an interference pattern of some sort, often depending on the wavelength of the sound and the size of the gap.
Diffraction occurs when waves encounter an obstacle or opening, causing them to bend around the edges of the barrier. This bending of waves leads to interference patterns being created, resulting in the spreading out of the wave pattern. This phenomenon can be observed with various types of waves, such as sound, light, and water waves.
When electrons transfer so quickly that they break the sound barrier, it results in a phenomenon known as a "sonic boom." This is a loud noise caused by the shock waves created by the rapid movement of the electrons, exceeding the speed of sound in the surrounding medium.
When waves encounter a solid barrier, they are reflected back in the opposite direction, causing interference with the incident waves. This reflection can result in amplification or cancellation of the wave amplitude depending on the phase relationship between the incident and reflected waves.
When waves strike a barrier with a gap, they diffract or spread out as they pass through the gap. This diffraction causes the waves to bend around the edges of the gap, creating a pattern of interference on the other side of the barrier. The size of the gap relative to the wavelength of the waves will determine the extent of diffraction.
The term decibel is a unit of measurement of the loudness of sound. It has nothing to do with light, which is measured in lumens.
light waves or electromagnetic waves are transverse and sound waves are longitudinal
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sound waves cant travel through space because there is no oxygen, and if there is no oxygen there is nothing to carry the sound waves. youre welcom theSas
Light waves: when light hits a smooth surface, it can be reflected. Sound waves: sound can bounce off hard surfaces such as walls, resulting in reflection. Water waves: waves in the ocean or a pond can be reflected off a barrier or shore.