The strength of its creation less losses in its transmission determines the amplitude at any point.ITS AMPLITUDE.
The factor that affects the transmission of an electromagnetic wave through a medium is the wavelength of the wave relative to the size of particles in the medium. If the wavelength is much larger than the particle size, the wave will pass through with minimal absorption or scattering. If the wavelength is comparable to the particle size, absorption or scattering may occur, leading to attenuation of the wave.
Amplitude affects the height of a wave. Increasing the amplitude of a wave will make it taller, while decreasing the amplitude will make it shorter.
Yes, the amount of water affects the size of a wave. Waves form and grow as wind transfers energy to the water's surface, causing it to ripple and eventually build into waves. Therefore, the greater the volume of water being affected by the wind, the larger the wave size can become.
The three factors that determine the size of a wave are wind speed, wind duration, and the fetch (the distance over which the wind blows without obstruction). These factors collectively influence the energy transferred to the water surface, which in turn affects the size of the waves.
Three things that affect the size and energy of a wave are the wind speed, the duration of the wind blowing, and the fetch (the distance over which the wind blows uninterrupted). These factors determine the amount of energy that can be transferred to the water, resulting in different wave heights and strengths.
The factor that affects the transmission of an electromagnetic wave through a medium is the wavelength of the wave relative to the size of particles in the medium. If the wavelength is much larger than the particle size, the wave will pass through with minimal absorption or scattering. If the wavelength is comparable to the particle size, absorption or scattering may occur, leading to attenuation of the wave.
Amplitude affects the height of a wave. Increasing the amplitude of a wave will make it taller, while decreasing the amplitude will make it shorter.
Mainly the strenght of the wind passing over the water. Also the fetch, or distance that a wave has to develope. Finally, the beach profile will also effect the size and how the wave breaks.
Yes, the amount of water affects the size of a wave. Waves form and grow as wind transfers energy to the water's surface, causing it to ripple and eventually build into waves. Therefore, the greater the volume of water being affected by the wind, the larger the wave size can become.
The three factors that determine the size of a wave are wind speed, wind duration, and the fetch (the distance over which the wind blows without obstruction). These factors collectively influence the energy transferred to the water surface, which in turn affects the size of the waves.
Three things that affect the size and energy of a wave are the wind speed, the duration of the wind blowing, and the fetch (the distance over which the wind blows uninterrupted). These factors determine the amount of energy that can be transferred to the water, resulting in different wave heights and strengths.
a wave that is about the size of a virus is ultraviolet a wave.
The size of a wave is not affected by the wavelength, but rather by the energy carried by the wave. The wavelength determines the distance between wave crests, while the amplitude of the wave determines its size or height. Changing the wavelength of a wave will not inherently change its size.
A fast boat produces a wider bow wave compared to a slow boat. This is because the speed of the boat affects the size and shape of the bow wave generated as it moves through the water.
The amount of diffraction that is seen is affected by the wavelength of the wave and the size of the obstacle or opening through which the wave passes. Smaller wavelengths and larger obstacles or openings lead to more noticeable diffraction effects.
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Both the wavelength and the frequency of a wave affect the speed of a wave.