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What relationship exists between the amplitude of a wave and amount of a disturbance in the water?
The amplitude of a wave is directly related to the amount of disturbance in the water. A larger disturbance will result in a wave with a greater amplitude, while a smaller disturbance will result in a wave with a smaller amplitude. This relationship helps determine the energy and intensity of the wave.
What relationship exists between the amplitude of a wave and amount of disturbance in the water?
the wave amplitude increases
What is the relationship between intensity and amplitude in the context of sound waves?
Intensity and amplitude are directly related in the context of sound waves. Amplitude refers to the height of a sound wave, while intensity is the amount of energy carried by the wave. As the amplitude of a sound wave increases, so does its intensity. This means that a louder sound with a higher amplitude will have a greater intensity compared to a softer sound with a lower amplitude.
Does the amount of energy determine its amplitude?
No, the amount of energy does not determine the amplitude of a wave. Amplitude is a measure of the maximum displacement of a wave from its equilibrium position. Energy is related to the intensity of the wave, which is determined by the square of the amplitude.
What happens when a sound gets louder?
It is the intensity of the sound wave. There is however a big difference between sound intensity and loudness. Loudness is measured with a scale called the Decibal scale , which is abbreviated as db in many cases. Your typical rock concert can hit db levels of 125db, and a typical iPod tops out at around 100db. The relationship between loudness and sound wave intensity can be explained by how compact and by wave amplitude. Amplitude is the height of the wave. Sound waves are introduced into a medium by the vibration of an object. For example, a vibrating guitar string forces surrounding air molecules to be compressed and expanded, creating a pressure disturbance consisting of an alternating pattern of compressions and rarefactions. The disturbance then travels from particle to particle through the medium, transporting energy as it moves. The energy which is carried by the disturbance was originally imparted to the medium by the vibrating string. The amount of energy which is transferred to the medium is dependent upon the amplitude of vibrations of the guitar string. If more energy is put into the plucking of the string (that is, more work is done to displace the string a greater amount from its rest position), then the string vibrates with a greater amplitude. The greater amplitude of vibration of the guitar string thus imparts more energy to the medium, causing air particles to be displaced a greater distance from their rest position. Subsequently, the amplitude of vibration of the particles of the medium is increased, corresponding to an increased amount of energy being carried by the particles thus resulting in an increase in the volume or db levels.
What relationship exists between the amplitude of a wave and amount of a disturbance in the water?
The amplitude of a wave is directly related to the amount of disturbance in the water. A larger disturbance will result in a wave with a greater amplitude, while a smaller disturbance will result in a wave with a smaller amplitude. This relationship helps determine the energy and intensity of the wave.
What relationship exists between the amplitude of a wave and amount of disturbance in the water?
the wave amplitude increases
What is the relationship between intensity and amplitude in the context of sound waves?
Intensity and amplitude are directly related in the context of sound waves. Amplitude refers to the height of a sound wave, while intensity is the amount of energy carried by the wave. As the amplitude of a sound wave increases, so does its intensity. This means that a louder sound with a higher amplitude will have a greater intensity compared to a softer sound with a lower amplitude.
What Amplitude is?
Amplitude refers to the amount by which something is displaced from the middle of its periodic motion. It can mean the maximum disturbance from the neutral position of a wave. It represents the intensity of a vibration, e.g. the loudness of a sound.
How do you measure the amplitude of compressional waves?
There are two types of waves: longitudinal and transverse. In a longitudinal wave, the wave moves parallel to the disturbance. In a transverse wave, the wave moves in a direction perpendicular to the direction of disturbance in the medium. For example, in a vibrating string, the string moves up and down, but the pulse travels down the string. The wave moves in a direction perpendicular to the way the string moves. The amplitude of a wave is a measure of its size, or the distance between its peak and trough. It is also a measure of the amount of energyin a wave. While amplitude is hard to calculate for longitudinal waves, it is a fairly simple task to calculate in transverse waves.Instructions1 Find the point where the string (or other medium) is farthest from horizontal in one direction.2 Measure the distance between that point and the horizontal.3 Double that distance. This is the amplitude.
How you measure the amplitude of a compressional wave?
There are two types of waves: longitudinal and transverse. In a longitudinal wave, the wave moves parallel to the disturbance. In a transverse wave, the wave moves in a direction perpendicular to the direction of disturbance in the medium. For example, in a vibrating string, the string moves up and down, but the pulse travels down the string. The wave moves in a direction perpendicular to the way the string moves. The amplitude of a wave is a measure of its size, or the distance between its peak and trough. It is also a measure of the amount of energyin a wave. While amplitude is hard to calculate for longitudinal waves, it is a fairly simple task to calculate in transverse waves.Instructions1 Find the point where the string (or other medium) is farthest from horizontal in one direction.2 Measure the distance between that point and the horizontal.3 Double that distance. This is the amplitude.
Does the amount of energy determine its amplitude?
No, the amount of energy does not determine the amplitude of a wave. Amplitude is a measure of the maximum displacement of a wave from its equilibrium position. Energy is related to the intensity of the wave, which is determined by the square of the amplitude.
What is the relationship between amount invested interest rate and amount invested?
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How do you find amplitude in waves?
The amplitude of a wave is the measure of its maximum displacement from the equilibrium position. To find the amplitude, you measure the distance between the equilibrium position and the peak (or trough) of the wave. This value represents the maximum amount by which the wave oscillates from its resting point.
What happens when a sound gets louder?
It is the intensity of the sound wave. There is however a big difference between sound intensity and loudness. Loudness is measured with a scale called the Decibal scale , which is abbreviated as db in many cases. Your typical rock concert can hit db levels of 125db, and a typical iPod tops out at around 100db. The relationship between loudness and sound wave intensity can be explained by how compact and by wave amplitude. Amplitude is the height of the wave. Sound waves are introduced into a medium by the vibration of an object. For example, a vibrating guitar string forces surrounding air molecules to be compressed and expanded, creating a pressure disturbance consisting of an alternating pattern of compressions and rarefactions. The disturbance then travels from particle to particle through the medium, transporting energy as it moves. The energy which is carried by the disturbance was originally imparted to the medium by the vibrating string. The amount of energy which is transferred to the medium is dependent upon the amplitude of vibrations of the guitar string. If more energy is put into the plucking of the string (that is, more work is done to displace the string a greater amount from its rest position), then the string vibrates with a greater amplitude. The greater amplitude of vibration of the guitar string thus imparts more energy to the medium, causing air particles to be displaced a greater distance from their rest position. Subsequently, the amplitude of vibration of the particles of the medium is increased, corresponding to an increased amount of energy being carried by the particles thus resulting in an increase in the volume or db levels.
What measures the amount of displacement in a longitudinal wave?
the amplitude. It is the displacement at a peak.
Why do tsunamis have a large amount of energy?
amplitude
